Term
Which squadrons form the MXG? |
|
Definition
|
|
Term
For whom does QA directly work? |
|
Definition
|
|
Term
How does QA identify negative trends and problem areas? |
|
Definition
Evaluation/inspection. Puts info into a database for analysis. Personal Evaluations, Technical inspections, management inspections. |
|
|
Term
The MOS (MOC) is directly responsible to the MXG commander for which tasks to support the group production effort? |
|
Definition
administration, training management, programs and resources. |
|
|
Term
What is the main function of the MOC? |
|
Definition
Monitor and coordinate sortie production, maintenance production execution of flying and maintenance schedules, maintain visibility of fleet health indicators. |
|
|
Term
What is crucial for the MOC to comply with reporting requirements and to identify potential problems? |
|
Definition
The exchange of detailed information between squadrons and the MOC. |
|
|
Term
The maintenance squadron can be divided into which two squadrons? |
|
Definition
|
|
Term
If you are assigned to the MXS or CMS/EMS, under which two flights might you be assigned? |
|
Definition
Propulsion flight or maintenance flight |
|
|
Term
What types of tasks does the propulsion flight perform? |
|
Definition
Engine disassembly/ asssembly and repair. JEIM (Jet Engine Intermediate Maintenance), Test cell, accessory and quick engine change (QEC). |
|
|
Term
If you are assigned to a specialist flight in the AMXS, which engine tasks may you be required to accomplish? |
|
Definition
on-equipment maintenance: troubleshooting, component removal/ installation, compressor washes, inspections, servicing, and assist with launch/recovery, towing. |
|
|
Term
What is the purpose of the Career Field Education and Training Plan (CFETP)? |
|
Definition
To provide career field managers, training managers, supervisors, and trainers with the framework to plan, develop, conduct, manage, and evaluate an effective, productive, and efficient career field-training program. |
|
|
Term
What does the fourth position of the AFSC 3A652 represent? |
|
Definition
|
|
Term
What is your title when you obtain a 5-skill level? |
|
Definition
|
|
Term
What skill level would you possess when you obtain the title "superintendent?" |
|
Definition
|
|
Term
How many months must you have in the AF before you attend ALS? |
|
Definition
|
|
Term
Why should you keep your CDCs after you've completed them? |
|
Definition
So you can study them when you prepare to test for SSgt. |
|
|
Term
When you are promoted to the rank of TSgt, what school must you attend? |
|
Definition
Non-commissioned officer academy |
|
|
Term
At what skill level is an airman expected to fill positions such as flight chief or production supervisor? |
|
Definition
|
|
Term
What is the purpose and goal of the AFOSH program? |
|
Definition
To ensure safe and healthy working conditions for all Air Force employees; its ultimate goal is to protect them from work-related deaths, injuries, and illnesses. |
|
|
Term
What series of AFOSH standards govern occupational safety? |
|
Definition
|
|
Term
What office would you contact if you have questions regarding and unsafe condition? |
|
Definition
|
|
Term
What is the purpose of safety in the work area? |
|
Definition
to prevent personal injury, damage to equipment, save time and money |
|
|
Term
How can most hazardous situations be avoided? |
|
Definition
By simply following procedures, asking for help when needed, and using personal protective equipment. |
|
|
Term
List 4 good housekeeping practices. |
|
Definition
(1) Wiping up spills as they occur. (2) Picking up oily rags and returning them to their proper containers. (3) Picking up foreign objects. (4) Getting rid of clutter. |
|
|
Term
How should you lift a heavy or bulky object? |
|
Definition
Keep your back straight, squat down, and then use your leg and arm muscles to provide the lifting power |
|
|
Term
How is quality maintenance defined? |
|
Definition
Meeting or exceeding aerospace equipment technical specifications and a customer’s requirements through the effective integration of management; people; technical data; workplace; and equipment, supplies, and services. |
|
|
Term
On what aspects of performing maintenance must all levels of supervision place emphasis? |
|
Definition
Safety, quality, and timeliness. |
|
|
Term
What types of maintenance actions are prohibited? |
|
Definition
Shortcuts or incomplete maintenance |
|
|
Term
what does maintenance discipline require of maintenance personnel? |
|
Definition
To display integrity and comply with all written guidance. |
|
|
Term
What will happen to personnel who fail to uphold maintenance discipline? |
|
Definition
They will be held accountable |
|
|
Term
What two things should you check to ensure the aircraft is safe for you to perform maintenance? |
|
Definition
Check the aircraft forms and check with other personnel located around and onboard the aircraft. |
|
|
Term
Which aircraft forms should you check for entries that may prevent you from starting your assigned tasks? |
|
Definition
AFTO Forms 781H and 781A. |
|
|
Term
Why should you check with other people working inside or outside of the aircraft prior to starting maintenance? |
|
Definition
They might not have put the proper entries in the forms before starting their tasks |
|
|
Term
What form is documented to identify and armed aircraft? |
|
Definition
|
|
Term
What are three types of equipment that produce radio frequency radiation? |
|
Definition
High-frequency radio transmitters, radar, and electronic countermeasure devices. |
|
|
Term
What are the primary danger areas that exist around and operating engine? |
|
Definition
Propellers, engine intakes and exhausts, turbine wheel, and starter planes of rotation and high frequency noise. |
|
|
Term
When a propeller is running, what are its two most dangerous areas? |
|
Definition
the plane of rotation and axis of rotation |
|
|
Term
What causes the danger area in front of the intake of an operating engine? |
|
Definition
|
|
Term
What is the minimum safe distance that should be established to avoid the effects of an exhaust blast? |
|
Definition
|
|
Term
What is the best way to protect yourself from noise levels that can cause permanent hearing loss? |
|
Definition
Wear both earplugs and headsets. |
|
|
Term
Why should personnel exercise caution when approaching the plane of rotation of a helicopter's main rotor blades? |
|
Definition
The blades/plane tend(s) to droop at decreased speeds |
|
|
Term
What are the primary factors that create static electricity? |
|
Definition
Different movements or motion. |
|
|
Term
When approaching or leaving a helicopter with blades rotating, what two things should maintenance personal remember? |
|
Definition
All personnel need to remain in full view of the pilot or helicopter operator and keep in a crouched position. |
|
|
Term
What is effective grounding? |
|
Definition
Providing a path for static electricity to flow to a grounding point in the earth. |
|
|
Term
What is the purpose of bonding? |
|
Definition
To eliminate the differentials in electrical charges that exist or are generated between a component and the aircraft, or between two components. |
|
|
Term
At the locations where a bonding wire is attached, what surface requirements must be met? |
|
Definition
The surface must be clean and unpainted |
|
|
Term
What should you do if the clothing you are wearing becomes soaked with fuel? |
|
Definition
Remove your clothes and shower immediately with plenty of soap and water. Allow the clothing to air dry, and then launder it with soap and water. |
|
|
Term
What conditions could result from excessive inhalation of fuel or chemicals? |
|
Definition
Headaches, dizziness, loss of muscular coordination, and unconsciousness. |
|
|
Term
Why should AF personnel be so concerned about FOD? |
|
Definition
The damage it causes translates into the loss of resources, money, or in a worst-case scenario, someone’s life. |
|
|
Term
What can happen when loose objects are blown or washed onto the runway? |
|
Definition
an aircraft engine can ingest them through its intake |
|
|
Term
Who is tasked with the overall responsibility for the FOD prevention program? |
|
Definition
|
|
Term
Who is responsible for preventing FOD by looking for and removing hazards that could cause damage to equipment or loss of life? |
|
Definition
All personnel are responsible |
|
|
Term
What must all workers account for at the beginning and end of each maintenance action? |
|
Definition
all of their tools and hardware |
|
|
Term
What should you do when you suspect that an item is lost on an aircraft and it is in an area where it can cause damage? |
|
Definition
Immediately place a red “X” symbol in the AFTO 781A and an entry describing the situation. Then, you must conduct a search for the lost item. |
|
|
Term
What should you wear when you are required to physically enter and intake or exhaust? |
|
Definition
bunny suit or equivalent pocketless coverall |
|
|
Term
To whom should you report damaged paving in aircraft parking area and taxiways for immediate repair? |
|
Definition
|
|
Term
Into what two categories are HAZMAT divided? |
|
Definition
Health and physical hazards |
|
|
Term
What is the purpose of the hazard communications program? |
|
Definition
To reduce the occurrences of occupational illnesses and injuries by informing all personnel of the hazards associated with, and the proper preventive measures to be taken, when they’re using or handling hazardous materials. |
|
|
Term
Toxic materials are divided into what three general physical classifications? |
|
Definition
Gases and vapors, liquids, solids |
|
|
Term
What type of gas are we frequently exposed to during test cell and flightline operations? |
|
Definition
|
|
Term
Which physical form of hazardous material enters the body easily and can cause rapid toxic reactions? |
|
Definition
|
|
Term
What is the key factor in making the PPE program successful? |
|
Definition
Your acceptance of the program. |
|
|
Term
What is a critical factor in PPE maintenance? |
|
Definition
inspect before and after each use |
|
|
Term
what is normally used to clean most PPE? |
|
Definition
|
|
Term
when you store PPE, from what are you protecting them? |
|
Definition
Sunlight, heat, extreme cold, and excessive moisture, and mechanical damage. |
|
|
Term
What should the design of a hazardous storage area allow for? |
|
Definition
Inspection of each container for leaks and deterioration, and for the transfer of container contents in case container damage occurs. |
|
|
Term
When removing spilled or leaking HAZMAT from the storage area, what should you never do? |
|
Definition
Never place incompatible types in the same container. |
|
|
Term
What information must hazard warning labels include? |
|
Definition
Name and identity of the chemical and all appropriate hazard warnings. |
|
|
Term
For stationary hazard containers, what can be used in place of a label? |
|
Definition
|
|
Term
An MSDS is required to be available for every type of material recorded on what document? |
|
Definition
Hazardous chemical inventory |
|
|
Term
Where can you find the proper procedures for disposing of hazardous waste materials? |
|
Definition
|
|
Term
What are the ways hazardous waste can be disposed of properly? |
|
Definition
Chemical-physical treatment, biodegradation, incineration, land disposal, and off-site contract disposal. |
|
|
Term
What is the purpose of the maintenance supply system? |
|
Definition
To procure, stock, and issue millions of items to thousands of customers worldwide. |
|
|
Term
What major weapon systems do RSSs manage? |
|
Definition
Aircraft, engines, communications, test stands, aerospace ground equipment, vehicles, and pods. |
|
|
Term
what is the standard base supply system? |
|
Definition
An accounting system consisting of standardized computer equipment, programs, procedures, and supply policy. |
|
|
Term
What are three primary points of contact within base supply? |
|
Definition
(1) Customer service. (2) Demand processing. (3) Equipment management. |
|
|
Term
What is the common term for repair cycle assets? |
|
Definition
Due-in-form-maintenance (DIFM) parts |
|
|
Term
what Base Supply function manages the repair cycle system? |
|
Definition
Repair Cycle Support System (RCSS) |
|
|
Term
What is the purpose of the repair cycle system? |
|
Definition
To establish a firm control over repair cycle assets to make sure they are repaired at base-level or sent to a repair facility as soon as possible. |
|
|
Term
When does the repair cycle time of an item start and stop? |
|
Definition
It starts when the unserviceable item is removed from the engine and a demand is made on Base Supply for a replacement. It stops when the item is sent back to Base Supply. |
|
|
Term
When you route a part to be repaired through RCSS, which part of the AFTO Form 350 do they need? |
|
Definition
Part 2, bottom portion of tag |
|
|
Term
What types of items generally require complete depot-level overhaul? |
|
Definition
(a) TCI, whose allowable operating time has expired. (b) Items involved in a weapon system accident. (c) Items which have evidence of contamination. (d) Items for which the condition cannot be determined. |
|
|
Term
List three of the important supply documents that you may utilize? |
|
Definition
Any three of the following: (1) Daily Document Register (D04). (2) Priority Monitor Report (D18). (3) Repair Cycle Asset Management Listing (D23). (4) Due-out Validation Listing (M30). (5) RSD DIFM Report. |
|
|
Term
Which supply document provides a means for organizations to review all document numbers processed during the day by the SBSS? |
|
Definition
Daily Document Register (D04) |
|
|
Term
Which supply document provides data by which to monitor due-out and their corresponding status? |
|
Definition
Priority Monitor report (D18) |
|
|
Term
Why must Base Supply have a priority monitoring system in place? |
|
Definition
Because Base Supply must deliver numerous parts to numerous organizations on a daily basis and each organization’s mission is different. |
|
|
Term
What two priority system does supply use? |
|
Definition
(1) Delivery Priority System. (2) UMMIPS. |
|
|
Term
What two factors determine priority for an off-base requisition? |
|
Definition
|
|
Term
What factor is adversely affected by the misuse of priority designators? |
|
Definition
The integrity of the supply system. |
|
|
Term
What is part 1 of the AFTO form 350 known as and for what is it used? |
|
Definition
It is known as the repair cycle processing tag; it is attached to items that are determined to be reparable and are being forwarded to other activities for repair. |
|
|
Term
Where is part 2 of the AFTO Form 350 located and what purpose does it serve? |
|
Definition
It is the section located below the perforation; as the production scheduling document. |
|
|
Term
Where can you find a block-by-block explanation of how to document the AFTO Form 350 tag? |
|
Definition
|
|
Term
When an item is sent to RPC, which blocks (both front and back) are required to be completed by the individual (originator) initiating the 350 tag? |
|
Definition
Blocks 1 through 14, 15A, and 29. |
|
|
Term
When an item is not sent to the RPC because of its size of for other reasons, which additional blocks must be completed by the originator? |
|
Definition
|
|
Term
Where can you go to find detailed information concerning the AF IMT 2005 codes and entries? |
|
Definition
|
|
Term
When are you required to enter the type, model, series, and serial number on the AF IMT 2005? |
|
Definition
When the requirement is for an NMCS or PMCS reportable item. |
|
|
Term
Which form should you submit it it's determined that a first-time request part will become a recurring one and, therefore, the stock level needs to be adjusted? |
|
Definition
|
|
Term
Where can you look to find information concerning how to use the condition tags and required entries for each? |
|
Definition
|
|
Term
What conditions warrant use of the DD Form 1575 (Brown)? |
|
Definition
When the part is awaiting maintenance or awaiting parts. |
|
|
Term
What is the purpose of the DD Form 1577 (Red)? |
|
Definition
To identify an unserviceable, condemned item. |
|
|
Term
What is the purpose of DD Form 1577-2 (Green)? |
|
Definition
Used to identify defective items that can be repaired and made serviceable. |
|
|
Term
What is the definition of a shelf-life item? |
|
Definition
An item that possesses deteriorative or unstable characteristics to the degree that a storage time period must be assigned to ensure that it will perform satisfactorily over a specified period of time. |
|
|
Term
What is the main difference between Types I and II shelf-life items? |
|
Definition
Type I items have a definite non-extendible period of shelf-life and Type II items may have their shelf-life period extended after completion of inspection/test/restorative actions. |
|
|
Term
For what can the information on DRs be used? |
|
Definition
To increase operational capability and efficiency by correcting defects in design, material, quality, or maintenance of equipment, and to reflect the past performance history of a contractor. |
|
|
Term
What are some of the justifications for initiating a DR? |
|
Definition
(1) Safety. (2) The part does not fit upon receipt. (3) The part does not work upon receipt. (4) The part failed before its expected life cycle. |
|
|
Term
You receive a part from supply that does not fit correctly and the part is still under warranty. Would you still submit a DR? |
|
Definition
|
|
Term
You find a deficiency that, if uncorrected, would cause severe injury. Under which category should you submit the DR? |
|
Definition
|
|
Term
Within what time frame must all category II DRs be forwarded? |
|
Definition
|
|
Term
List some examples of EAID items. |
|
Definition
Individual equipment, organizational equipment (i.e., engine stands and special tools), and special or project equipment. |
|
|
Term
EAID items that require formal supply accountability must be reflected on what listing? |
|
Definition
|
|
Term
Who provides you with the required equipment manager training? |
|
Definition
Equipment Management element at Base Supply. |
|
|
Term
List the things you must accomplish if you serve as an equipment custodian. |
|
Definition
(a) Ensure you attend the required training on proper equipment account maintenance. (b) Inventory and account for every piece of equipment shown on the current CA/CRL before signing for the account. (c) Conduct periodic inventory checks of your account to ensure that all the items listed are accounted for. |
|
|
Term
Why are Technical Orders numbered? |
|
Definition
(1) To provide a sequence for filing. (2) To categorize them by equipment type. (3) To assist in establishing a library. |
|
|
Term
In the first section of TO number 1F-16C-1, what does the "1" represent? |
|
Definition
|
|
Term
In the first section of TO number 2J-F110-6-6, what does the "J" represent? |
|
Definition
|
|
Term
In the TO number 2J-F110-6-14, what does the "F110" represent? |
|
Definition
|
|
Term
How are index TOs identified? |
|
Definition
With a single “0” in the first section of the TO number. |
|
|
Term
What can the USAF TO catalog database be used for? |
|
Definition
(1) To establish and requisition TO requirements. (2) For the maintenance of TO libraries. (3) To search for new, updated, and rescinded TOs. (4) To cross-reference TO numbers to equipment numbers. |
|
|
Term
List three examples of O&M TOs. |
|
Definition
(1) Flight manual program publications. (2) On-equipment organizational maintenance manual sets. (3) Work package TOs. |
|
|
Term
What do methods of procedures TOs establish? |
|
Definition
Policies, methods, and procedures relating to the TO system, maintenance management, ground handling of aerospace vehicles, general maintenance practices, management of precision measuring equipment, and the safe use of Air Force equipment. |
|
|
Term
What are abbreviated TOs? |
|
Definition
Excerpts from one or more basic TOs which organize and simplify instructions (work simplification devices). |
|
|
Term
TCTOs are the authorized method for doing what? |
|
Definition
Directing and providing instructions for modifying military systems and commodities and for performing or initially establishing one-time inspections. |
|
|
Term
Which technical manuals generally describe the overall aircraft and its installed systems and subsystems? |
|
Definition
|
|
Term
What type of information do GS manuals provide? |
|
Definition
Detailed system and subsystem description, as well as theory of operation. |
|
|
Term
What type of information do JG manuals provide? |
|
Definition
Detailed start-to-finish, step-by-step maintenance instructions arranged in a logical sequence. |
|
|
Term
Which type of technical manual contains operational fault identification procedures and reporting instructions that allow the flight crew to describe the conditions pertaining to a malfunction? |
|
Definition
|
|
Term
Describe the process of troubleshooting equipment when using an FI manual. |
|
Definition
The parts of a system/function are tested in a logical sequence until a specific line replaceable unit failure, maladjustment, or a wiring fault is found. |
|
|
Term
In IETMS, what additional technical order data is provided beyond the basic technical manual? |
|
Definition
|
|
Term
If you need to look up a part number, which two sections of the IPB manual could you use? |
|
Definition
Group assembly parts list and/or numerical index. |
|
|
Term
What type of instructions do TCTOs provide? |
|
Definition
For modifying military equipment, systems, or commodities within specified time limits, and initiates special “one-time” inspections or imposes temporary restrictions on systems. |
|
|
Term
How can a TCTO be quickly identified? |
|
Definition
By the number 501 (or higher) in the third section of the TO number. |
|
|
Term
Why are interim TCTOs issued in an electronic message format? |
|
Definition
To speed delivery and implementation. |
|
|
Term
How are hard copy, immediate action TCTOs identified? |
|
Definition
With the words “IMMEDIATE ACTION” printed in red at the top of the first page and with red Xs around the borders of the first page. |
|
|
Term
When must an urgent action TCTO be completed? |
|
Definition
within one to 10 days of receipt. |
|
|
Term
Why would a routine TCTO be issued? |
|
Definition
When equipment or procedural deficiencies of a material, mechanical, operational, or tactical nature that if left uncorrected would: (1) Create a hazard through prolonged and continued use. (2) Cause a negative effect on operational efficiency. (3) Reduce tactical or support utility. (4) Reduce the operational life or general service utilization of equipment or systems. |
|
|
Term
What are the ways, or formats, in which TOs are issued? |
|
Definition
|
|
Term
Why is it important to ensure that you are using the most current TO for your particular job? |
|
Definition
Working with outdated information could result in serious injury and/or damage to tools/equipment. |
|
|
Term
The need to a TO revision is based on what factors? |
|
Definition
(1) The impact of changes and supplements on the usability of the TO. (2) Urgency of need for update. (3) Cost. (4) Quantity of stock on hand. |
|
|
Term
If a TO change contains new material that cannot be included on an existing page, how are added pages assigned? |
|
Definition
With the preceding page number and a suffix, such as 2–2.1 or 2–2A. |
|
|
Term
How can you tell when the text or a picture in a TO has been changed? |
|
Definition
There’s a bold vertical black line alongside the affected text in the margin and through the silhouette of a pointing hand in a figure, picture, or illustration. |
|
|
Term
What form is used to recommend improvements to TOs? |
|
Definition
|
|
Term
What are the results of an approved TO recommendation? |
|
Definition
Corrects an error, inserts an omitted technical fact, or standardizes improved procedures for all personnel Air Force–wide. |
|
|
Term
What is the next stopping point for an AFTO IMT 22 after being validated by the initiator's supervisor? |
|
Definition
Product improvement office for the organization to which the initiator is assigned. |
|
|
Term
|
Definition
A disciplined methodology used to identify preventative maintenance tasks to ensure equipment meets its life expectancy at minimum cost to the government. |
|
|
Term
What are the two classifications of failures? |
|
Definition
|
|
Term
What is the process of trying to match modules with approximately the same amount of time left on them? |
|
Definition
|
|
Term
What is the ET&D program? |
|
Definition
An integration of hardware, software, maintenance, and diagnostic processes to quantify and monitor/manage engine health. |
|
|
Term
List the purposes of ET&D. |
|
Definition
(1) Predict, detect, and conduct pre-emptive maintenance analysis of adverse trends. (2) Forecast time and material requirements days or weeks in advance to minimize ENMCS rates and maintenance man-hours. (3) Reduce shop flow days and increase serviceable spare engine levels. (4) Reduce life cycle costs and improve reliability by improved measurement of life used on critical components. (5) Increase average ETOW by eliminating time-based removals. |
|
|
Term
What is the primary goal of the ET&D program? |
|
Definition
To prevent or limit damage to turbine engines by prediction or early detection of performance degradation and/or failures. |
|
|
Term
How do flight line personnel use ET&D data? |
|
Definition
By collecting raw engine data and transferring it to the base engine maintenance shop for analysis. |
|
|
Term
How do depot and product center engineers and technicians utilize the ET&D program? |
|
Definition
To develop engine trend data and provide support to field users by diagnosing engine performance problems. |
|
|
Term
What is the ET&D program designed to determine? |
|
Definition
If maintenance must be performed before the next flight and/or before the next scheduled engine change. |
|
|
Term
What are CIRFs designed for and what type of support do they provide? |
|
Definition
To take advantage of existing repair centers to sustain deployed forces and reduce forward support footprints, and regional repair during steady-state or contingency operations. |
|
|
Term
|
Definition
Additional assets at the maintenance facility to provide sufficient numbers to allow direct shipment of serviceable assets to the supported units as soon as the need is communicated. |
|
|
Term
What is the benefit of a CRP? |
|
Definition
Reduces customer waiting time by replacing unserviceable assets with serviceable as soon as the need is communicated rather than waiting for the unserviceable asset to be shipped to the CIRF, repaired, and returned to the FOL. |
|
|
Term
|
Definition
In one of three ways: (1) Spare assets may be shipped to a CIRF from nondeploying units to build the CRP. (2) Additional spares may be shipped to the CIRF from deploying units. (3) CRPs may be built from unserviceable assets shipped from the FOL to the CIRF for repair. Once repaired, these serviceable assets would be retained at the CIRF as CIRF assets. |
|
|
Term
How are CIRF assets accounted for and tracked? |
|
Definition
CIRF production supervisors maintain accountability of CIRF assets by using the AF Portal to report daily status of these assets IAW prescribed instructions. |
|
|
Term
What is depot maintenance? |
|
Definition
Maintenance performed on material requiring overhauling or rebuilding of parts, assemblies, subassemblies, and end items. |
|
|
Term
List the organizational chain from the requesters through depot. |
|
Definition
(1) Field maintenance. (2) Base supply. (3) AF/DLA supply centers. (4) Asset management. (5) Depot repair. (6) New production (vendors). |
|
|
Term
What type of maintenance does depot perform? |
|
Definition
Engine/component overhaul, JEIM level functions, disassembly, inspections, repairs, replacements, assemble and test engines/components, and engine systems. |
|
|
Term
From where does the AF obtain depot maintenance? |
|
Definition
Organic Department of Defense facilities and private sector contractors. |
|
|
Term
List the most common forms of depot level maintenance. |
|
Definition
CLSS crews, depot maintenance support, field teams, and maintenance assistance. |
|
|
Term
What is the primary objective of CEMS? |
|
Definition
To obtain accurate information on the status, condition, and location of aircraft engines, gearboxes, and modules in the Air Force inventory. |
|
|
Term
What is used to collect and store information provided by different engine reporting systems? |
|
Definition
|
|
Term
What are the various methods used to report engine status data to CEMS? |
|
Definition
(1) IMDS. (2) DLR. (3) REMIS. (4) G081 (IMDS for HQ AMC units for mobility airlift). (5) Mail. |
|
|
Term
What section monitors engine removals and replacements and tracks components at the base level? |
|
Definition
|
|
Term
What are some functions of CEMS? |
|
Definition
(1) Provide for Air Force readiness through the collection of information which, when accumulated, indicates the overall view of operational capability. (2) Answer the question of how many engines and components are available at any one time. (3) Provide for cost effective use of available resources, since it allows components and engines to be shifted from places of excess to high-need areas. |
|
|
Term
What are the two categories of status reporting? |
|
Definition
The first category is for engines and modules; the second category is for tracked components. |
|
|
Term
What is the purpose of the AFTO IMT 95? |
|
Definition
For maintaining a permanent history of significant maintenance actions on end items of equipment including, but not limited to aerospace vehicles, engines, engine modules, and designated –6 TO components. |
|
|
Term
What should you do if an automated data system is not available for engine status reporting? |
|
Definition
Use the AFTO IMT 95 to collect the data manually and in sufficient detail to update the automated systems when practical. |
|
|
Term
In general, what conditions should be documented on the AFTO IMT 95? |
|
Definition
Conditions that could have a bearing on the future maintenance of the equipment. |
|
|
Term
What is the purpose of the Lead the Fleet/Pacer engine program? |
|
Definition
To determine actual distress modes of an engine and its subsystems in the field. |
|
|
Term
what is the Lead the Fleet/Pacer program? |
|
Definition
An accelerated mission usage program that assists in maturing the engines, modules, LRUs, SRUs, and their subsystems. |
|
|
Term
What type of information does the Lead the Fleet/Pacer program provide? |
|
Definition
Early intelligence on equipment integrity, reliability, and maintainability before the majority of the fleet is impacted; engineering data and procurement lead times for orderly updating and modification of the engine, engine controls, and accessories. |
|
|
Term
List the Lead the Fleet/Pacer program objectives. |
|
Definition
(1) Accelerate Pacer items ahead of the operational fleet to identify potential premature engine component failures, enable early analysis of trends, failure modes/rates, and assist in defining the required corrective actions prior to maturity of the remaining fleet. (2) Accurately update scheduled maintenance requirements. Safely extend TO hardware inspection limits. (3) Rapidly advance item maximum life limits so they are consistent with the capability of the hardware. (4) Provide early analysis of trending data to improve planning and forecasting in procuring initial and follow-on spares. (5) Identify hardware service life deficiencies and the areas that require redesign/rework before extensive production commitments are made. (6) Detect any unique durability problems that might force special scheduled inspections. (7) Evaluate engine controls and accessories to include engine monitoring systems. (8) Provide lead-time for solving maintenance issues, developing maintenance plans, and resource provisioning. |
|
|
Term
How do participating units manage pacer engines? |
|
Definition
At twice the normal flying rate until the items are, at a minimum, two years ahead of the top 10 percent (high time) fleet engines. |
|
|
Term
What program does the Lead the Fleet/Pacer program support? |
|
Definition
|
|
Term
Why shouldn't you use a greasy tool? |
|
Definition
The tools become slippery and you could lose your grip. If a tool slips out of your hand, the result could be damage to equipment, or injury to yourself and/or your coworkers. |
|
|
Term
Why shouldn't you put tools in your pockets? |
|
Definition
Increases the chances of loosing them and increases your chances of being injured. |
|
|
Term
At what times should your toolbox be inspected? |
|
Definition
At the beginning of the shift, before you leave the tool crib section, after you finish a job and before you move the toolbox to a different work location prior to leaving the work area for lunch breaks or appointments, and at the end of your shift, prior to turning it in to the tool crib. |
|
|
Term
What should you check when inspecting you toolbox are the beginning of each shift? |
|
Definition
Missing, damaged, corroded, and dirty tools and any foreign objects that may have been left in the toolbox. |
|
|
Term
What should you do with your toolbox when it is not in use (for example, lunch and breaks)? Why? |
|
Definition
It should be locked and secured to a fixed object. This way neither the toolbox, nor any of its contents can be stolen. |
|
|
Term
What can you use when your toolbox can't be located within arm's reach? |
|
Definition
|
|
Term
How is the torque value of a torque wrench expressed? |
|
Definition
Inch-pounds or foot-pounds |
|
|
Term
What's the most common type of torque wrench used in the AF? |
|
Definition
|
|
Term
How do you reduce the torque setting on a torque wrench? |
|
Definition
Turn the handle or grip counter clockwise |
|
|
Term
If you drop a torque wrench, what action must you take? |
|
Definition
Verify the accuracy of the torque wrench and, if necessary, have the wrench recalibrated. |
|
|
Term
You're torquing a castellated nut. The minimum torque value is 50 in-lb and the maximum torque value is 60 in-lb. The slot in the castellated nut can't be aligned with the locking hole in the bolt. What corrective action should you take? |
|
Definition
|
|
Term
In the following situation, use the given information to determine the desired torque. You wish to exert 200 in-lbs at the end of an extension. The length of the handle is 12 inches and the extension is 8 inches. What should be the torque handle setting? |
|
Definition
S=T(La)/(La+Ea) where S=handle setting, La=length of handle in inches, T=Torque applied at end of adapter, Ea=length of extension in inches. S=120 in-lb. |
|
|
Term
For what purpose should you use a thickness gauge? |
|
Definition
To measure the clearance between two surfaces. |
|
|
Term
When using the thickness gauge to check the gap between two surfaces, what important point regarding accuracy should you always remember? |
|
Definition
The accuracy of the gauge will depend on one’s ability to determine by feel when there is the correct tension or pressure on the blades. |
|
|
Term
What are the parts of and outside micrometer? |
|
Definition
Frame, anvil, spindle, barrel, lock, vernier scale, and thimble. |
|
|
Term
What are the three basic types of micrometers and their purposes? |
|
Definition
(1) Outside micrometer - to measure outside diameters, (2) inside micrometer - to measure inside dimensions, and (3) depth micrometer to measure the depth of holes or recesses. |
|
|
Term
What is the longest calibrated movement possible between the spindle and anvil of a 6-inch outside micrometer and what is the movement called? |
|
Definition
|
|
Term
List four of the precautions you should take when using a micrometer. |
|
Definition
Choose any four of the following six. Do not close micrometers too tightly on the work; never swing it back and forth by the thimble; always hold the frame stationary and adjust the tool by turning the thimble. Before using, clean the micrometer and the surface being measured; do not handle large micrometers roughly; and during cold weather, use a cloth to prevent heat transfer between your body and the micrometer |
|
|
Term
Which other measuring tool can you use while practicing with a micrometer to aid you in becoming proficient in using the micrometer? |
|
Definition
|
|
Term
How many revolutions would you have to turn the thimble of a micrometer to read 0.025 inches? |
|
Definition
|
|
Term
Which part of the micrometer has graduations that represent tenths of an inch? |
|
Definition
|
|
Term
What measurement does the vernier scale on the micrometer provide? |
|
Definition
ten-thousandths of an inch. |
|
|
Term
What type of device is a dial indicator? |
|
Definition
A mechanical motion-amplifying device. |
|
|
Term
What feature is common to all dial indicators? |
|
Definition
The ability to greatly amplify movement. |
|
|
Term
On dial indicators with two indicators within one dial face, what does the smaller indicator measure? |
|
Definition
The number of revolutions of the larger hand. |
|
|
Term
What is the greatest single assurance against excessive wear, breakage, and other damage to measuring tools? |
|
Definition
|
|
Term
What element is the most prevalent cause of excessive wear of measuring tools? |
|
Definition
|
|
Term
What should you apply to steel-measuring tools that are stored in a shop area having a high relative humidity? |
|
Definition
Cover them with a corrosion-preventing coating of lubricating oil. |
|
|
Term
When cleaning measuring tools, what type of solvent should you use? |
|
Definition
One that leaves no film after evaporation. |
|
|
Term
Which control switch on the Fluke 8025A multimeter is used to set the meter to check for alternating current, direct current, and ohms? |
|
Definition
Single function selector rotary switch |
|
|
Term
Which control switch is used to take measurements in a circuit that's difficult to reach? |
|
Definition
|
|
Term
On what side of the circuit is the black test lead connected? |
|
Definition
The negative side of the circuit. |
|
|
Term
Where are measurement results displayed on the meter? |
|
Definition
|
|
Term
What do the letters "OL" indicate on the display? |
|
Definition
Overload condition or open circuit. |
|
|
Term
What's the most important safety precaution to observe when using the ohms function of the multimeter? |
|
Definition
Do not hook an ohmmeter to a live circuit |
|
|
Term
How is the multimeter connected to a component that is to be measured? |
|
Definition
In Parallel; Black lead on the negative side and the Red lead on the positive side. |
|
|
Term
What is the maximum voltage that can be measured if the decimal point is at 300 on the digital display? |
|
Definition
|
|
Term
What is the purpose of the borescope inspection? |
|
Definition
To perform internal component inspections on engines. |
|
|
Term
What are some limitations of the borescope? |
|
Definition
Access ports available, serviceability of the equipment, and the experience and knowledge of the person performing the inspection. |
|
|
Term
What types of borescopes are used on today's engines? |
|
Definition
Rigid, flexible, and videoimage. |
|
|
Term
The rigid and flexible borescope control units are similar except for what? |
|
Definition
The rigid control unit doesn't have an angulation lever. |
|
|
Term
What types of views are available with the distal tip of the rigid borescope? |
|
Definition
|
|
Term
What factors determine whether or not someone is capable of becoming qualified to operate a borescope? |
|
Definition
Experience, maturity, rank. |
|
|
Term
What type of damage results from a pinched fiber bundle or light guide cable? |
|
Definition
Damaged fibers cause a poor field of view and are very expensive to repair. |
|
|
Term
Where are bolt markings located? |
|
Definition
|
|
Term
Where is the diameter of a bolt measured? |
|
Definition
|
|
Term
Why are fine thread bolts stronger than coarse thread bolts? |
|
Definition
They have a greater cross-sectional area. |
|
|
Term
Into what two general groups are nuts divided? |
|
Definition
Nonself-locking and self-locking. |
|
|
Term
What is the maximum safe working temperature for nonmetallic self-locking nuts? |
|
Definition
|
|
Term
Which screw is made from high tensile material? |
|
Definition
|
|
Term
Which screw is used for general purposes? |
|
Definition
|
|
Term
What are the three types of machine-head screws? |
|
Definition
Any three of these: roundhead, flathead, fillister head, and socket-head. |
|
|
Term
How do lockwashers secure bolts and screws? |
|
Definition
Spring action and sharp tempered edge prevents loosening. |
|
|
Term
In aircraft maintenance, what are the more commonly used pins? |
|
Definition
Tapered pins, flathead pins, cotter pins, roll pins, and quick-release pins. |
|
|
Term
What type of pin is used in joints that carry shear loads and where the absence of clearance is essential? |
|
Definition
|
|
Term
What type of pin is used in conjunction with a cotter pin? |
|
Definition
|
|
Term
How many times may you reuse a cotter pin? |
|
Definition
|
|
Term
What is the purpose of safetying devices? |
|
Definition
|
|
Term
When lockwiring two bolts together, betwee, what positions should the lockwire twists exit on the firt bolt? |
|
Definition
between 3 and 6 o’clock position. |
|
|
Term
How many twists should be left on the braid when cutting off excess lockwire? |
|
Definition
Enough to safely bend the pigtail end toward the bolt head. |
|
|
Term
What advantage does steel tubing have over aluminum tubing? |
|
Definition
It will withstand rough handling and high pressure. |
|
|
Term
Why are flexible hose assemblies used instead of metal tubing in some applications? |
|
Definition
Hoses are especially suitable where a great amount of flexibility is needed and where lines are subject to vibration. |
|
|
Term
Why should the bend radii on hoses be bent as large as possible? |
|
Definition
To avoid kinking of the line. |
|
|
Term
What is used to identify hose and tubing systems after installation? |
|
Definition
|
|
Term
What size fitting should be used for a piece of tubing that is 5/8 inch? |
|
Definition
|
|
Term
What types of connectors can be used in any system no matter what the pressure is? |
|
Definition
Flared, sleeve, or swage types. |
|
|
Term
What causes most nicks and scratches on engine plumbing? |
|
Definition
Careless handling of tools during engine maintenance. |
|
|
Term
How should dust caps be installed on open lines? |
|
Definition
Position dust caps over, rather than in, the tube ends. |
|
|
Term
What is the allowable limit for a dent in a straight line? |
|
Definition
Any dent in a piece of tubing that’s less than 20 percent of the tubing diameter isn’t objectionable unless it’s on the heel of a short bend radius. |
|
|
Term
What is the maximum distance a hose can go without support? |
|
Definition
|
|
Term
What is the purpose of leaving 1.5 inches of slack in a hose that connects to an engine component? |
|
Definition
This prevents the possibility of the hose being pulled off the connection due to engine movement. |
|
|
Term
An engine is sent to the engine shop with a known discrepancy. What should you do before you begin corrective action to correct the discrepancy? |
|
Definition
First, review the aircraft and engine forms; second, perform an FOD check of the compressor section; and third, remove the main oil filter and inspect for oil contamination. |
|
|
Term
Why is it important to have a clean container to catch the oil when checking the main oil filter for contamination? |
|
Definition
A dirty container could easily give a false indication of contamination. |
|
|
Term
Why should a preliminary inspection of the engine be performed prior to correcting a known discrepancy? |
|
Definition
To ensure an unknown discrepancy doesn’t slip by while the engine is undergoing maintenance for a known discrepancy. |
|
|
Term
How are hints on maintenance procedures highlighted in maintenance manuals? |
|
Definition
In the form of captions such as notes, cautions, and warnings. |
|
|
Term
What are possible consequences of a dirty work area? |
|
Definition
Contamination and subsequent engine failures. |
|
|
Term
Why should you never stack engine parts with precision finishes on concrete floors? |
|
Definition
Marring and nicking would lead to cracks in the metal and leaks of exhaust gases during engine operation. |
|
|
Term
Before you prepare an engine for air shipment, what precaution do you take for engine fuel and oil systems? |
|
Definition
Make sure all residual fluids are drained from the engine lubricating and fuel system. |
|
|
Term
What precautions should be taken during air shipment of engines attached to trailers, trucks, stands, or in containers? |
|
Definition
Properly torque all bolts, capscrews, and nuts used in securing engines and provide them with approved locking device. Also, check pneumatic tires for condition and proper inflation. |
|
|
Term
what is used as the most common shipping container for components? |
|
Definition
|
|
Term
A flexible environmental container can be used for what type of shipment? |
|
Definition
Air and surface transportation. |
|
|
Term
What type of cover is opened by using a zipper? |
|
Definition
|
|
Term
Which manual covers reporting and engine that was improperly shipped? |
|
Definition
|
|
Term
What types of inspections are performed on engines that are involved in mishaps or are dropped? |
|
Definition
Visual inspections and test cell operational checks. |
|
|
Term
An engine was dropped en route. An inspection revealed only minor damage to the engine. Which level of maintenance would do the repair work? |
|
Definition
Intermediate maintenance. |
|
|
Term
How is dehydration accomplished in a metal shipping container? |
|
Definition
By installation of predetermined amounts of bagged dehydrating agent and by pressurizing with dry nitrogen. |
|
|
Term
How does the flexible environmental container differ from metal containers? |
|
Definition
They do not provide mechanical and physical protection and are used in conjunction with transportation trailers and adapters. |
|
|
Term
Empty storage and shipping containers should be pressurized to what pressure? |
|
Definition
|
|
Term
What warning is found on all engine module storage and shipping containers? |
|
Definition
The warning “CAUTION: Release pressure before opening container.” |
|
|
Term
Where is the filler valve located? |
|
Definition
On the front end of the container. |
|
|
Term
What could happen if you remove the lid from a storage and shipping container without releasing the internal pressure? |
|
Definition
Damage to the container or injury to the workers. |
|
|
Term
What direction are the turn-lock fasteners turned when removing the lid? |
|
Definition
|
|
Term
After the lid is removed from the container, where should it be placed? |
|
Definition
|
|
Term
Which end of the engine is placed over the front of the container? |
|
Definition
|
|
Term
What is the purpose of the wire basket located in the bottom half of a shipping container? |
|
Definition
|
|
Term
Why is the serial number on both halves of the shipping container particularly important? |
|
Definition
Both halves of a container must be kept together, since they are a matched set. |
|
|
Term
What markings are used on shipping containers? |
|
Definition
Engine model number, engine serial number, preservation data and activity, represervation date and activity, engine status, date, and activity, type, model, manufacturer, and serial number of the container, gross weight, net engine weight, length, height, width, and cube of the container. |
|
|
Term
What must you do before loosening the adjusting screws? |
|
Definition
Release all pressure from the container. |
|
|
Term
What secures an F100 core module's front and rear adapters to the container support? |
|
Definition
|
|
Term
What preservation treatment is required for engines that will not be operated for 48-hours? |
|
Definition
Seal the intake, exhaust, drain, and all air vent openings. |
|
|
Term
What fluid is used to preserve the oil system between 45 and 180 days? |
|
Definition
|
|
Term
What type of fluid is used in the preservation of the fuel system? |
|
Definition
MIL-L–6081 (grade 1010) oil. |
|
|
Term
What is the general engine depreservation procedure? |
|
Definition
Service the oil reservoir, flush the system with fuel, and perform a ground check run to determine the operating condition of the engine. |
|
|
Term
What are the depreservation steps for a fuel system? |
|
Definition
Flush the system with fuel by rotating the engine rotor and energizing the main fuel system. Then drain and clean the fuel filters. |
|
|
Term
What are the two types of corrosion? |
|
Definition
Direct chemical corrosion and electrochemical corrosion. |
|
|
Term
Where does chemical corrosion start? |
|
Definition
It starts on the surface of the metal exposed to the corrosive environment. |
|
|
Term
What is the corrosion product of iron alloys? |
|
Definition
|
|
Term
What is electrochemical corrosion? |
|
Definition
It is when two dissimilar metals are connected by an electrolyte. |
|
|
Term
What the the two basic methods of corrosion prevention? |
|
Definition
An oil-like protective coating and the use of desiccants. |
|
|
Term
What TO gives the procedures for cleaning a jet engine? |
|
Definition
|
|
Term
How are internal salt deposits removed from engines? |
|
Definition
By spraying clean fresh water into the inlet of the engine during coast-down. |
|
|
Term
What is the purpose of maintenance stands? |
|
Definition
They are designed to provide a working platform at variable heights. |
|
|
Term
What are the normal parts of a stand? |
|
Definition
Base assembly, hydraulic system, and a. platform assembly. |
|
|
Term
What is the purpose of the safety lockpins that are installed in maintenance platforms? |
|
Definition
Prevent the platform from lowering while in use. |
|
|
Term
What are the five commonly used maintenance platforms? |
|
Definition
C–1, B–1, B–2, B–4, and B–5. |
|
|
Term
Which of the maintenance platforms is nonadjustable? |
|
Definition
The C–1 maintenance platform. |
|
|
Term
What prevents movement of the B-4 maintenance stand while in use? |
|
Definition
|
|
Term
What are the height ranges of each of the five maintenance platforms? |
|
Definition
C–1, 4 feet; B–1, 3 to 10 feet; B–2, 13 to 20 feet; B–4, 3 to 7 feet; and B–5, 7 to 12 feet. |
|
|
Term
What is the purpose of the AFTO From 244? |
|
Definition
It provides a means to document equipment delayed discrepancies and corrective actions, record service, periodic and special inspections, record inspection status, and historical data. |
|
|
Term
What is the purpose of the AFTO Form 245? |
|
Definition
AFTO FORM 245 is published as a continuation form for Part V of the AFTO FORM 244. |
|
|
Term
What does Newton's first law of motion state? |
|
Definition
"A body at rest remains at rest and a body in motion continues to move at a constant speed in a straight line, unless an external force acts upon it.” |
|
|
Term
Newton's first law of motion is also considered the definition of what term? |
|
Definition
|
|
Term
What is Newton's second law of motion? |
|
Definition
“An unbalanced force on a body produces or tends to produce an acceleration in the direction of the force and that the acceleration, if any, is directly proportional to the force and inversely proportional to the mass of the body.” |
|
|
Term
Which law of Newton's laws best explains why a jet engine produces forward thrust? |
|
Definition
Newton's third law of motion |
|
|
Term
What two words can best sum up Newton's third law of motion? |
|
Definition
|
|
Term
What does Bernoulli's principle state? |
|
Definition
“When the speed of a stream of gas increases, the pressure of the gas decreases, and when the speed of the gas decreases, the pressure increases.” |
|
|
Term
What type of duct is used to decrease pressure and increase velocity? |
|
Definition
|
|
Term
How does the design of an airfoil influence pressure above and below the airfoil to produce lift? |
|
Definition
To increase the velocity of the airflow above its surface; thereby decreasing pressure above the airfoil. Simultaneously, the impact of the air on the lower surface of the airfoil increases the pressure below. This combination of pressure decrease above the airfoil and pressure increase below the airfoil produces lift. |
|
|
Term
What type of falling energy does a falling object possess? |
|
Definition
|
|
Term
Can energy pass from potential to kinetic and back to potential? |
|
Definition
|
|
Term
Which jet engine section produces the large volumes of air required for the production of thrust? |
|
Definition
|
|
Term
What does the combustion section do to support the production of thrust? |
|
Definition
Introduces fuel and burns it in the air stream behind the compressor. Burning the fuel increases the air temperature and expands the air. |
|
|
Term
Which engine section drives the compressor? |
|
Definition
|
|
Term
What is the energy that is expended through the exhaust nozzle used for? |
|
Definition
It creates thrust (action) and this thrust is used to propel the aircraft forward (reaction). |
|
|
Term
What is used to create the propulsive force for a turboprop engine? |
|
Definition
|
|
Term
Which terms are used to express the thrust produced by a T56 engine? |
|
Definition
Horsepower and pounds of torque. |
|
|
Term
Which term is used to define the theoretical power of a frictionless engine? |
|
Definition
|
|
Term
What is friction horsepower? |
|
Definition
Indicated horsepower minus brake horsepower. It is used by an engine in overcoming the friction of moving parts, drawing in fuel, expelling exhaust, driving oil and fuel pumps, and the like. |
|
|
Term
Which type of horsepower determines the performance of the engine-propeller combination? |
|
Definition
Equivalent shaft horsepower (a.k.a. thrust horsepower). |
|
|
Term
What can you determine of you know the BTU content of a gallon of fuel and how much the gallon of fuel weighs? |
|
Definition
The potential horsepower of the fuel. |
|
|
Term
What type of fuel do today's jet engines use? |
|
Definition
|
|
Term
The thermal efficiency of a jet engine is equal to what? |
|
Definition
The energy produced by the engine, divided by the energy of the fuel consumed by the engine. |
|
|
Term
What two factors determine what proportion of the energy of a fuel is actually used to propel and aircraft forward? |
|
Definition
Thermal and propulsive efficiency. |
|
|
Term
Define the term "barometric pressure." |
|
Definition
The force exerted by the mass of a column of air above the point where the pressure is being measured. |
|
|
Term
What instrument is used to measure barometric pressure? |
|
Definition
|
|
Term
Why is a measurement of 14.7 psi sometimes referred to as a "standard-day" atmospheric condition? |
|
Definition
Because if the mercury in a column 1 square inch by 29.92 inches high were weighed, it would weigh 14.7 lbs. |
|
|
Term
Why was a US standard-day condition developed? |
|
Definition
Because some standard was necessary as a reference point for computing and calculating purposes. |
|
|
Term
What two factors tend to cause variations in the temperature of the atmosphere? |
|
Definition
|
|
Term
Define the term "density," as it applies to air. |
|
Definition
material mass per unit volume. |
|
|
Term
List the three methods by which heat can be transferred. |
|
Definition
Radiation, convection, conduction. |
|
|
Term
What is the highest point of pressure within a jet engine? |
|
Definition
|
|
Term
On a jet engine that does not have an afterburner, where is the point of highest temperature? |
|
Definition
In the combustion section. |
|
|
Term
When a jet engine reaches idle speed, what determines how the fuel control regulates engine speed? |
|
Definition
|
|
Term
What two forms of energy does a jet engine produce? |
|
Definition
|
|
Term
Approximately what percent of the energy produced by the fuel is needed to maintain the jet engine operating cycle? |
|
Definition
|
|
Term
Why does the airflow velocity of the exhaust gases increase within the turbine stator? |
|
Definition
Because the size of the openings through which the gases flow is reduced. |
|
|
Term
Where is the point of highest airflow velocity in a jet engine? |
|
Definition
|
|
Term
What component directs the gases that strike the turbine wheel blades? |
|
Definition
|
|
Term
What is the purpose of the turbine stator? |
|
Definition
To increase the velocity of the gases striking the turbine blades. |
|
|
Term
After the gases leave the turbine section and enter the exhaust section, what type of velocity do they have? |
|
Definition
|
|
Term
What straightens the flowpath of gases in the exhaust case? |
|
Definition
The vanes in the exhaust case. |
|
|
Term
In a multistage turbine, what is the arrangement of the shafts? |
|
Definition
One shaft is hollow, allowing the other shaft to operate inside it. |
|
|
Term
Which turbine drives the front compressor on a dual-spool turbine? |
|
Definition
|
|
Term
What is a turbojet engine? |
|
Definition
An air-dependent, thermal, jet propulsion device. |
|
|
Term
Name the three main sections of a gas turbine engine. |
|
Definition
Compressor, burner (combustion), and turbine. |
|
|
Term
Today's jet engine compressors are an outgrowth of what units that are normally used with reciprocating engines? |
|
Definition
|
|
Term
What requirement must exist for the successful operation of either jet or reciprocating engines? |
|
Definition
The engines must be able to handle large amounts of air in a short period of time. |
|
|
Term
How do pressure pulsations in a centrifugal compressor appear? |
|
Definition
As shock waves or irregular movement of air through the compressor. |
|
|
Term
What effects do pressure pulsations have on a compressor? |
|
Definition
Rapidly reduced efficiency. |
|
|
Term
For what two reasons is it undesirable to use multiple-stage centrifugal compressors to increase the pressure ratio? |
|
Definition
Because of the complicated construction and increased weight of the engine that would result. |
|
|
Term
What is the purpose of the inducer rotor? |
|
Definition
To pick up the air smoothly and feed it into the impeller. |
|
|
Term
How many shafts comprise the compressor/turbine shaft assembly? |
|
Definition
|
|
Term
Why is the forward end of the compressor-turbine shaft hollow? |
|
Definition
To provide a passage through which the main fuel supply for the engine is distributed. |
|
|
Term
What two needs stimulated the development of the axial-flow compressors? |
|
Definition
More power and a more economical engine. |
|
|
Term
How are axial-flow compressor rotor blades similar to an aircraft propeller? |
|
Definition
They both are airfoil-shaped and move an air mass. |
|
|
Term
How is the air processed through an axial-flow compressor? |
|
Definition
The air travels rearward along the axis of the engine, and the air pressure is increased at each stage of compression. |
|
|
Term
What is the purpose of the stationary vanes that are located behind each rotor wheel in the single-spool axial-flow compressor? |
|
Definition
They direct the air onto the blades of the succeeding rotor wheel and also cause the air pressure to increase. |
|
|
Term
How are the compressor rotor blades and stator vanes arranged in a multiple-stage axial-flow compressor? |
|
Definition
The rotor blades are graduated from long to short through the stages of compression. The stator vanes are also graduated in size to correspond in length with the rotor blades. |
|
|
Term
Identify two reasons the dual-spool compressor was designed. |
|
Definition
Ease of starting and reduction of compressor stalls. |
|
|
Term
What unit determines the speed of the N2 (high-pressure) rotor in a dual-spool compressor? |
|
Definition
|
|
Term
Which type of compressor is more durable, the axial-flow of the centrifugal? |
|
Definition
|
|
Term
How are stator vane rings attached to the axial-flow compressor casings? |
|
Definition
Dovetailed into the inside. |
|
|
Term
From what three types of alloys are compressor cases made? |
|
Definition
Titanium, Steel, aluminum. |
|
|
Term
What is the purpose of the air chamber in axial-flow compressor engines? |
|
Definition
To bleed air from the N2 (high-pressure) compressor. |
|
|
Term
What achieves diffusion in axial-flow compressor engines? |
|
Definition
Divergent shape of the casing aft of the compressor guide vanes. |
|
|
Term
Why is getting good combustion in a gas turbine engine so complex? |
|
Definition
Because the fuel and air must combine rapidly, the combustion process must not use excessive energy and space, and the combustion chamber must not overheat. |
|
|
Term
What is "combustion efficiency?" |
|
Definition
A measure of the ability of the combustion chamber to burn the fuel completely and to mix the products thoroughly with the remainder of the air charge before the gases reach the turbine nozzle. |
|
|
Term
How is combustion efficiency computed? |
|
Definition
By comparing the heat energy received by the air as it passes through a test combustion chamber with the known energy that was added to the chamber in the form of fuel. |
|
|
Term
Within certain limits, what happens to combustion efficiency as combustion-chamber inlet pressure increases? |
|
Definition
|
|
Term
What is the most probable cause if a jet engine flying at 40,000 feet with a constant engine RPM of 50% has a flameout? |
|
Definition
|
|
Term
List three conditions that are or relatively small concern if the upper limit on combustion-chamber temperature rise is outside steady-state operating range. |
|
Definition
Inlet pressure, temperature, and airflow. |
|
|
Term
How does engine design help to prevent igniter plug fouling? |
|
Definition
By directing air around the igniter plug electrodes. |
|
|
Term
What are two by-products of combustion? |
|
Definition
Carbon deposits and carbon monoxide. |
|
|
Term
Describe carbon monoxide gas. |
|
Definition
It is colorless, odorless, and poisoinous |
|
|
Term
What are the two purposes of the combustion section? |
|
Definition
To burn the fuel and to deliver the resulting gas to the turbine at a temperature that does not exceed a predetermined limit for the particular engine in use. |
|
|
Term
What is the approximate air-to-fuel ratio that is used for the actual burning process in a combustion chamber? |
|
Definition
|
|
Term
Name the three types of combustion chambers? |
|
Definition
Can, Annular, and Can-annular |
|
|
Term
What supports the annular-type combustion chamber in the front and rear? |
|
Definition
The front of the chamber is attached to the burner support, and the rear of the chamber is supported on the outside by the stator blade support ring of the first-stage turbine and on the inside by the stator inlet ring of the first-stage turbine. |
|
|
Term
How does the additional air that is required to support combustion and cool the annular combustion chamber reach the chamber walls? |
|
Definition
Through elongated slots and round holes in the sections of the chamber walls. |
|
|
Term
Why is secondary air supplied through the secondary-air distribution cups and allowed to mix with the burning fuel? |
|
Definition
To dilute the mixture enough to provide a correct fuel-to-air ratio. |
|
|
Term
Why is it difficult to remove the annular combustion chamber? |
|
Definition
Because removal involves all major parts that are located rearward of the combustion area. |
|
|
Term
What supports the can-annular combustion chambers within the combustion section on certain engines? |
|
Definition
Fuel nozzles in the front and turbine nozzle case at the rear. |
|
|
Term
What is the purpose of a fuel nozzle? |
|
Definition
To inject fuel into the combustion chamber. |
|
|
Term
What do swirl-type fuel nozzles provide? |
|
Definition
high-flame speed with a low-axial velocity. |
|
|
Term
For what two purposes are multiple fuel nozzles used? |
|
Definition
To handle large quantities of fuel with even distribution and to minimize the variation that might be caused by a clogging of any one of the nozzles. |
|
|
Term
In a dual-orifice type of fuel nozzle, fuel is injected into the engine combustion chamber from which orifices for high-engine-thrust operation? |
|
Definition
Both the primary and secondary orifices. |
|
|
Term
Name three types of turbines. |
|
Definition
Impulse, reaction, and reaction-impulse. |
|
|
Term
What type of turbine design is used on most jet engines? |
|
Definition
|
|
Term
What is inserted between rotating blades on multiple-stage turbines? |
|
Definition
Stationary turbine nozzle vanes. |
|
|
Term
What characteristics and values must engineers consider when designing turbines? |
|
Definition
Exhaust gas-flow rate, shaft rpm, turbine inlet and outlet temperatures and pressures, turbine exhaust velocity, and the required power output. |
|
|
Term
What is the most frequently used method of attaching the turbine blades to the rotor disc? |
|
Definition
|
|
Term
Describe the "fir tree attachment." |
|
Definition
A series of grooves and notches broached in the rim of the turbine rotor disc. |
|
|
Term
What three types of fasteners are used to secure the turbine blades to the rotor disc? |
|
Definition
Steel pins, lock strips, and rivets |
|
|
Term
What are the two principal configurations of turbine blades? |
|
Definition
|
|
Term
What three things does the shroud on shrouded turbine blades do? |
|
Definition
To reduce blade vibration, improve airflow, and increase engine efficiency. |
|
|
Term
What does the term "exhaust duct" refer? |
|
Definition
The engine exhaust pipe (or tailpipe) connecting the turbine outlet and the jet nozzle of a non-afterburning engine. |
|
|
Term
What are two purposes of the engine exhaust duct? |
|
Definition
To collect and straighten the gas flow that comes from the turbine and to increase the velocity of the gases before they are discharged from the exhaust nozzle. |
|
|
Term
What may occur if you alter the exhaust nozzle? |
|
Definition
Changes in engine performance and exhaust gas temperature. |
|
|
Term
Why are small tabs placed in the engine exhaust nozzle of some engines? |
|
Definition
To correct exhaust gas temperature. |
|
|
Term
What is the purpose of a variable area orifice at the augmentor exhaust nozzle exit? |
|
Definition
To schedule the nozzle area to obtain the desired thrust within the safe operating limits of the engine. |
|
|
Term
An augmentor is classified as what type of an engine? |
|
Definition
|
|
Term
What effect should augmentor operation have on engine operation? |
|
Definition
It should have no adverse effect. |
|
|
Term
Define the term "screech." |
|
Definition
A condition of periodic violent pressure fluctuation in the augmentor duct resulting from cyclic vibration due to the unsteady release of combustion energy. |
|
|
Term
What two parts will most likely deteriorate of fail if moderate or severe screech is not checked? |
|
Definition
The flameholder or augmentor duct. |
|
|
Term
How is screech controlled? |
|
Definition
By placing screech liners in the augmentor duct. |
|
|
Term
What two things does the flameholder in the augmentor do? |
|
Definition
Creates local turbulence and reduces the gas velocity in the vicinity of the flame. |
|
|
Term
What type of gloves can you use in lieu of rubber or nylon mesh when you handle antifriction bearings? |
|
Definition
|
|
Term
How do you protect bearings during periods of storage? |
|
Definition
Wrap them in a grease-proof paper and store in a clean area. |
|
|
Term
During the removal of a bearing, you suspect the bearing is binding. You try to rotate the outer race and it hangs up. what could causing this situation? |
|
Definition
The bearing puller was not properly aligned. |
|
|
Term
Besides arbor presses and bearing pullers, what other tools are used to aid in removal of bearings? |
|
Definition
Drift pipe, steel bars, and split rings/collars. |
|
|
Term
Why is it so important to clean a bearing before you inspect it? |
|
Definition
Poor cleaning prevents adequate visual inspection. |
|
|
Term
How can excessive bearing wear usually be detected? |
|
Definition
By roughness of metal on the active surfaces. |
|
|
Term
How is the proper temperature maintained in the hot-oil bath tank? |
|
Definition
It is thermostatically controlled. |
|
|
Term
For what two reasons should bearing components be suspended above the bottom of the hot-oil bath tank during heating? |
|
Definition
To prevent parts from overheating and collecting sediment. |
|
|
Term
What was used in the accessory and gear case assembly of early engines to reduce the engine rotor speed to the correct speed for the accessories used in connection with engine fuel, oil, and electrical systems? |
|
Definition
|
|
Term
What is the main difference between the accessory drive sections of modern engines and earlier engines? |
|
Definition
The location of the accessory drive sections. |
|
|
Term
In modern engines, where is the reduction gearbox mounted? |
|
Definition
Rear flange of the main gearbox. |
|
|
Term
How is engine RPM reduced to drive the accessories? |
|
Definition
By reduction gears in the accessory drive gearbox. |
|
|
Term
What determines the drive ratio of the accessory drives? |
|
Definition
The number of teeth on the drive gear and the number of teeth on the driven gear. |
|
|
Term
What prevents oil from leaking around the accessory drives? |
|
Definition
An oil seal that rides on each drive gear shaft. |
|
|
Term
On and F108 engine, what component provides the coupling between the core engine and the accessory drive assembly? |
|
Definition
|
|
Term
Under what component is the AGB mounted? |
|
Definition
|
|
Term
What are the three main units of a T56 engine? |
|
Definition
Reduction gearbox assembly, torquemeter assembly, and a power unit. |
|
|
Term
How many stages of reduction are there in the RGB assembly? |
|
Definition
Two stages of reduction: a spur gearing first stage and a planetary gearing second stage. |
|
|
Term
What is the overall reduction ratio of the RGB? |
|
Definition
|
|
Term
What is the purpose of the torquemeter assembly? |
|
Definition
It transmits torque from the power unit to the RGB and provides rigidity and alignment between the RGB and the power unit. |
|
|
Term
What are the four main sections of the power unit? |
|
Definition
Accessory drive housing assembly and the compressor, combustion, and turbine sections. |
|
|
Term
Which components are mounted on the front of the accessory drive housing? |
|
Definition
Speed sensitive control, speed sensitive valve, main oil pump, and the oil filter. |
|
|
Term
What is the purpose of the combustion chamber liners? |
|
Definition
Mix the fuel and air, control combustion, and guide the exhaust gases into the turbine assembly. |
|
|
Term
What is the energy that is absorbed by the turbine section used to drive? |
|
Definition
Compressor rotor, engine accessories, RGB assembly, and the propeller. |
|
|
Term
How is the RGB connected to the power unit on a T56 Engine? |
|
Definition
Through a torquemeter assembly and two tie struts. |
|
|
Term
The RGB front case consists of which components? |
|
Definition
Front case, ring gear, planetary gears, sun gear, RGB main and nose oil scavenge pumps, propeller shaft, and the NTS actuator rod(s), spring(s), and plunger assembly. |
|
|
Term
What major section of the RGB has passages that eliminate the need for oil tubes and oil lines inside the RGB? |
|
Definition
|
|
Term
Which gear in the RGB gear case turns at the same RPM as the power unit rotor? |
|
Definition
|
|
Term
Which components of the RGB support the accessory drive gear train? |
|
Definition
Rear case and rear case inner diaphragm |
|
|
Term
Which components, mounted on the rear case, are driven by the accessory drive gear train? |
|
Definition
AC electrical generator, hydraulic pump, tachometer generator, oil pump, and starter. |
|
|
Term
Where does the RGB receive its power? |
|
Definition
Through the torque shaft from the power unit. |
|
|
Term
The first stage of gear reduction is comprised of which two gears? |
|
Definition
Pinion input gear meshed to a larger gear called the main drive gear. |
|
|
Term
The second stage reduction changes the speed by what ratio? |
|
Definition
|
|
Term
What is the total reduction gear ratio of the RGB? |
|
Definition
|
|
Term
What is the purpose of the propeller brake? |
|
Definition
To prevent rotation of the engine and propeller when the engine is static. |
|
|
Term
Where is the propeller brake located? |
|
Definition
Between the rear case and rear case inner diaphragm. |
|
|
Term
At approximately what engine speed is the RGB system oil pressure sufficient to keep the propeller brake in the released position? |
|
Definition
|
|
Term
For what is the propeller brake "applied" position used? |
|
Definition
To slow the propeller to a stop during engine shutdown and to prevent the propeller from windmilling in high winds. |
|
|
Term
Why does airflow tend to windmill the propeller in a reverse direction? |
|
Definition
Because of the airfoil design of the propeller blade. |
|
|
Term
What does the locked position of the propeller brake prevent? |
|
Definition
It prevents the propeller and the power unit rotors from rotating and becoming damaged while the engine is shut down in flight. |
|
|
Term
Why does the release of the propeller brake during air start differ from normal engine start? |
|
Definition
The starter is not used to restart the engine; therefore, the starter cannot be used to release the propeller brake. |
|
|
Term
During air start operation, what overcomes the force of the brake apply spring and releases the propeller brake? |
|
Definition
|
|
Term
When is negative torque created? |
|
Definition
When the propeller tries to drive the engine power unit, instead of the power unit driving the propeller. |
|
|
Term
Why is a negative torque condition a dangerous condition that must be limited for safety of flight? |
|
Definition
It creates an uneven balance of power, which causes the aircraft to yaw. |
|
|
Term
What an NTS condition exists, what is the easiest way to slow down the propeller? |
|
Definition
Increase the airload on the propeller by increasing the propeller blade angle. |
|
|
Term
Where are the main components of the NTS system located? |
|
Definition
In the front case of the RGB and in the propeller valve housing. |
|
|
Term
Which gear overcomes spring force and moves the plunger and actuator rod forward? |
|
Definition
|
|
Term
During normal operation, how is the ring gear coupling and ring gear held rearward? |
|
Definition
By positive torque and spring force. |
|
|
Term
The torquemeter assembly consists of which main components? |
|
Definition
Two concentric shafts, a housing, and a torquemeter pickup. |
|
|
Term
What are the purposes of both the inner and outer torqemeter assembly shafts? |
|
Definition
The inner (torque) shaft transmits the rotating motion of the compressor (positive or negative torque) and presents this motion to the safety coupling mounted on the RGB. The outer (reference) shaft is used for a reference in determining the amount of twisting deflection applied to the torque shaft. |
|
|
Term
When are the teeth of the torqemeter exciter wheels in phase? |
|
Definition
When the rectangular teeth of these exciter wheels are in alignment at zero torque. |
|
|
Term
Which component transmits an electrical pulse, representing torque, to an indicator? |
|
Definition
|
|
Term
Where is the safety coupling located? |
|
Definition
On the RGB between the pinion input gear shaft and torque (inner) shaft. |
|
|
Term
What is the purpose of the safety coupling? |
|
Definition
Automatically decouples the power unit from the RGB whenever an excessive negative torque condition occurs. |
|
|
Term
How much torque does it take to decouple the safety coupling in order to disconnect the power unit from the RGB and the propeller? |
|
Definition
Between –4,200 inch-pounds and –7,200 inch-pounds of torque. |
|
|
Term
When can the torque shaft be recoupled to the RGB? |
|
Definition
When torque decreases below approximately –6,000-inch pounds. |
|
|
Term
What type of compressor does the T56 engine use? |
|
Definition
14-stage, single-spool, axial-flow compressor. |
|
|
Term
The compressor section supplies air used for what purpose? |
|
Definition
For combustion, internal engine cooling, and operation of the aircraft pneumatic systems. |
|
|
Term
What are the major components of the T56 compressor section? |
|
Definition
Air inlet housing, compressor casing, compressor rotor, and a diffuser assembly. |
|
|
Term
What do the two sensing probes, located on the compressor air inlet housing, detect and change? |
|
Definition
They detect the pressure and temperature of the air entering the compressor and their signals of the changes in air mass and temperature cause a change in fuel flow. |
|
|
Term
What are the purposes of the two oil jets located on the compressor extension shaft housing? |
|
Definition
The oil jet, located on the rear side of the extension shaft housing, provides lubrication for the front compressor bearing (No. 1). The dual oil jet located on the front side of the extension shaft housing provides lubrication for the torquemeter mid- and center-sleeve bearings. |
|
|
Term
What happens to the air when it is received by the compressor section stator vanes from the rotor blades? |
|
Definition
The air is decelerated and its pressure increased. |
|
|
Term
How is the compressor rotor assembly supported at both the front and rear ends? |
|
Definition
Its front end is supported by a roller bearing (No. 1) which is mounted on the front compressor wheel hub and its rear end is supported by a split inner-race ball bearing (No. 2), mounted on the rear wheel hub. |
|
|
Term
What does the compressor front bearing (no. 1) labyrinth seal prevent? |
|
Definition
The No. 1 bearing from leaking oil into the compressor and ultimately into the compressor discharge air. |
|
|
Term
What does the design and arrangement of the compressor rotor blades do to the airflow as it passes through the compressor? |
|
Definition
Airflow through the compressor becomes smooth and flows parallel to the axis of compressor rotation. |
|
|
Term
For which components does the compressor diffuser provide support and mounting? |
|
Definition
Support for the compressor rear bearing and for the compressor rear bearing scavenge oil sump. It also provides mounting pads for the six fuel nozzles. |
|
|
Term
What happens to the air that passes through to the aft side of the compressor rear bearing labyrinth oil seal? |
|
Definition
This air is vented through turbine coupling and turbine rotor shafts and into the exhaust gases. |
|
|
Term
What part of the combustion section supports the entire weight of the turbine section? |
|
Definition
|
|
Term
Which parts position and retain the six combustion cans in the outer combustion case? |
|
Definition
Four liner supports and two igniter plugs. |
|
|
Term
What is the purpose of the seal rings and seal ring expanders that are located on the forward end of the combustion chamber inner casing? |
|
Definition
To prevent excessive leakage of air at the forward end of the combustion section into the “lighthouse” cavity. |
|
|
Term
What is the purpose of the combustion chamber liner (can) design? |
|
Definition
To control the flame position and length within the liner and to provide an area for rapid fuel and air mixing. |
|
|
Term
The crossover tubes that interconnect the combustion cans are used for what purpose? |
|
Definition
To equalize the internal pressures of each liner and to provide a path for the flames to spread evenly to each liner during engine start. |
|
|
Term
What is the purpose of the turbine coupling shaft? |
|
Definition
To transfer turbine rotor torque to the compressor rotor. |
|
|
Term
What is the purpose of the combustion section pressure oil line? |
|
Definition
To direct oil to the front and rear sides of the turbine front (No. 3) bearing. |
|
|
Term
How is the lighthouse cavity formed? |
|
Definition
By the diffuser at the front, the turbine inlet case at the rear, and the inner combustion casing assembly. |
|
|
Term
What is the purpose of the T56 turbine section? |
|
Definition
The T56 turbine section receives the hot gases from the combustion section and converts the energy in the expanding gases into torque for driving the compressor rotor, engine accessories, and the propeller. |
|
|
Term
Which assemblies increase the velocity of and direct hot gasses to the first-stage turbine rotor blades? |
|
Definition
|
|
Term
On the T56-A-15 turbine rotor, how are the first-stage engine buckets (blades) retained in their wheel? |
|
Definition
By the cover plate seals on both sides of the wheel. |
|
|
Term
How is oil routed from the external oil pressure line to the No. 4 turbine rear bearing? |
|
Definition
An external oil pressure line delivers oil to an oil tube located in front of the lower left strut. This tube delivers the oil to the oil seal through passages to the bearing cap. The bearing cap forms the oil jet, which directs the oil on the turbine rear (No. 4) bearing. |
|
|
Term
What is the purpose of the turbine rear scavenge pump? |
|
Definition
To scavenge oil from the turbine rear (No. 4) bearing. |
|
|
Term
What is located in a QEC power package? |
|
Definition
The engine, nacelle structure, engine mounts, hydraulic pump, electric generator, and associated components. |
|
|
Term
What are the power plant major assemblies for the AE2100D3? |
|
Definition
The PGB, torquemeter assembly, power section, accessory drives, and the nacelle structure. |
|
|
Term
How is the propeller gearbox connected to the engine? |
|
Definition
|
|
Term
What are the primary functions of the PGB? |
|
Definition
The primary functions of the PGB are to transmit shaft power from the torquemeter to the propeller, reduce shaft rpm, and supply shaft power to the GMAD gear train. |
|
|
Term
What are the three primary functions of the torquemeter assembly? |
|
Definition
To transmit engine output power to the PGB, to provide alignment and structural support between the power section and PGB, and to supply a calibrated torque reference to the FADEC. |
|
|
Term
What component prevents ice from forming on the torqemeter assembly? |
|
Definition
The anti-icing shroud allows for the flow of warm anti-icing air to prevent ice from forming on the torquemeter assembly. |
|
|
Term
What component mounts to the bottom surface of the air inlet housing? |
|
Definition
|
|
Term
The AE2100D3 engine compressor is of what type and consists of how many stages? |
|
Definition
|
|
Term
What type of combustion liner is used in the AE2100D3 engine and where is it located? |
|
Definition
Annular; occupies the space between the diffuser liner and outer walls. |
|
|
Term
How many fuel nozzle openings are equally spaced around the front of the combustion liner? |
|
Definition
|
|
Term
The four stages in the AE2100D3 turbine assembly are used to make up which subassemblies? |
|
Definition
Stages 1 and 2 make up the gas generator turbine and stages 3 and 4 make up the power turbine. |
|
|
Term
What is the purpose of the gas generator turbine assembly? |
|
Definition
To make the torque that is necessary to turn the engine compressor rotor. |
|
|
Term
What is the purpose of the power turbine assembly? |
|
Definition
To take the power output of the engine and drive the propeller through the torquemeter and PGB. |
|
|
Term
Where is the GMAD mounted? |
|
Definition
|
|
Term
The GMAD provides the pads and drives for which components? |
|
Definition
AC generator, hydraulic pump, PGB lube and scavenge pump, propeller PCU, and propeller OSG and high pressure pump. |
|
|
Term
The PUAD supplies the mounting flanges for which components? |
|
Definition
FPMU, alternator stator, starter, and the power section lube and scavenge pump. |
|
|
Term
Which nacelle access door contains the fire access panel? |
|
Definition
The lower right turbine access door contains a fire access door. |
|
|
Term
The louvers and scoops on the nacelle structure provide cooling air flow for what assemblies? |
|
Definition
Engine, Accessories, and tailpipe ejector. |
|
|
Term
What are the four modules of the T700 engine? |
|
Definition
Accessory section (accessory gearbox or AGB), cold section (compressor section), hot section (combustion section) and power section (power turbine section). |
|
|
Term
|
Definition
A part that can be removed and replaced at the flightline level with another like part. |
|
|
Term
Which components make up the cold section module? |
|
Definition
Swirl frame, output shaft assembly, front frame, main frame, scroll case, compressor section, diffuser and midframe casing assembly. |
|
|
Term
What's the purpose of the IPS? |
|
Definition
To separate foreign particles from the air before it enters the engine inlet. |
|
|
Term
The A-sump output shaft provides a mounting surface for which main bearings? |
|
Definition
No. 1 and No. 2 main stage bearings. |
|
|
Term
How many stages of axial flow compression does the T700 have? Centrifugal compression? |
|
Definition
Five axial stages and one centrifugal stage. |
|
|
Term
The gas generator turbine rotor is located in which T700 engine module? |
|
Definition
|
|
Term
How many fuel injectors are incorporated on the T700 engine? |
|
Definition
|
|
Term
What major components make up the power turbine module? |
|
Definition
Turbine case, power turbine rotor assembly, exhaust frame, C-sump housing, and power turbine drive shaft assembly. |
|
|
Term
What drives the fan and booster (front compressor) of the engine? |
|
Definition
The four stages in the LPT. |
|
|
Term
List the four modules of the F108 engine. |
|
Definition
(1) Fan. (2) Core engine. (3) LPT. (4) Accessory. |
|
|
Term
How is structural rigidity maintained on the F108 engine? |
|
Definition
Its short length and two mainframes. |
|
|
Term
Which bearings are housed in the forward sump, and what do they support? |
|
Definition
The No. 1 bearing (ball) and No. 2 bearing (roller), which support the fan and booster assembly. And the No. 3 bearing (ball), which supports the high pressure compressor front shaft. |
|
|
Term
What is the airflow path for the secondary airflow? |
|
Definition
It passes through the fan’s outer portion and exits through the fan’s discharge duct. |
|
|
Term
About how much of the F108's thrust is provided by the fan's secondary airflow? |
|
Definition
|
|
Term
What attaches to the fan disk at the front and is coupled to the LPT shaft at the back using a splines-and-nut arrangement? |
|
Definition
|
|
Term
What are the two purposes of the IGB and No. 3 bearing assembly? |
|
Definition
The mechanical coupling between the HPC and the TGB and support for the forward end of the core compressor. |
|
|
Term
Where is the primary airflow ducted through the F108 engine? |
|
Definition
In between the center hub outer contour and the mid-box structure inner contour. |
|
|
Term
Bleed air for use by the engine and aircraft is taken from which stages of the compressor? |
|
Definition
|
|
Term
What is the purpose of an air duct through the inside diameter of the compressor rotor? |
|
Definition
Forms a flow path for pressurizing and cooling air. |
|
|
Term
What are the two purposes of the front rotor stator case on the F108 engine? |
|
Definition
To house the stator vanes and enclose the compressor rotor |
|
|
Term
Which stator stages are housed in the rear stator assembly? |
|
Definition
the 6th through 8th stage rotors |
|
|
Term
Which part of the core engine major module is subjected to the most stress? What two things cause this stress? |
|
Definition
The HPT rotor assembly; tremendous heat coupled with rotational forces. |
|
|
Term
What helps ensure long life for the combustion liner? |
|
Definition
The combustion chamber is film cooled by CDP air and has special coatings applied to the metal. |
|
|
Term
How are the HPT nozzles cooled? |
|
Definition
By CDP air that bypasses the combustor inner and outer liner. |
|
|
Term
What two components does the LPT turbine shaft assembly connect? |
|
Definition
Fan shaft with the LPT rotor. |
|
|
Term
What happens to the gases as they travel through the LPT nozzle? |
|
Definition
Pressure drops and axial velocity increases. |
|
|
Term
Which main engine bearing is housed in the turbine frame assembly? |
|
Definition
|
|
Term
What's the purpose of the accessory major module on the F108 engine? |
|
Definition
To drive all the accessories at the proper speed for efficient engine operation. |
|
|
Term
List the parts that make up the accessory drive section. |
|
Definition
IGB, radial drive shaft, TGB, horizontal drive shaft, and AGB. |
|
|
Term
Where does the power come from to drive the accessory section? |
|
Definition
|
|
Term
What provides for transmission of power between the IGB and to the AGB? |
|
Definition
|
|
Term
List the accessories that receive drive power from the AGB. |
|
Definition
Fuel pump and MEC, hydraulic pump, integrated drive generator, control alternator, lubrication unit. |
|
|
Term
How many stages of compression does the F100 have? |
|
Definition
|
|
Term
Which stages of the turbine section drive the rear (N2) compressor? |
|
Definition
|
|
Term
What are two advantages of the modular engine concept? |
|
Definition
(1) Engines can be serviced faster and (2) eliminates the need to return the whole engine to depot for overhaul. |
|
|
Term
List the five modules that make up the F100-PW-220 engine? |
|
Definition
(1) Inlet/fan. (2) Core engine. (3) Fan drive turbine. (4) Augmenter duct and nozzle. (5) Gearbox. |
|
|
Term
If you wanted to determine which way the compressor rotates, where would you stand in reference to the engine? |
|
Definition
At the rear of the engine looking toward the intake. |
|
|
Term
Why are there "directional references" on the engine? |
|
Definition
To establish common points of reference on the engine. |
|
|
Term
What is the purpose of external flanges on the engine? |
|
Definition
To provide locations for the attachment of brackets, external accessories, and support equipment. |
|
|
Term
Which bearing is located in the diffuser case? |
|
Definition
Rear compressor turbine front bearing (No. 4). |
|
|
Term
List the seven major parts that make up the IFM? |
|
Definition
(1) Fan inlet case. (2) CIVV cylinder and control assembly. (3) Front compressor rotor and stator assembly. (4) No. 1 bearing, housing, and pressure and scavenge tubes. (5) Right anti-icing manifold. (6) Tt2 thermocouples (sensors). (7) Quad N1 sensor |
|
|
Term
How many CIVVs are there in the fan inlet case? |
|
Definition
|
|
Term
How many stages of blades and stators are contained within the front compressor rotor and stator assembly? |
|
Definition
Three stages of blades and two stages of vanes. |
|
|
Term
What is the location of the No. 1 bearing assembly? |
|
Definition
The front compressor stator inlet shroud. |
|
|
Term
How many Tt2 sensors are in the fan inlet module? |
|
Definition
Two sensors mounted in the fan inlet case at the 5 and 6:30 o’clock positions. |
|
|
Term
What struts in the compressor intermediate case contains the oil pressure tubes for the No. 2 and 3 bearing compartments? |
|
Definition
2, 3, and 11:30 o’clock positions. |
|
|
Term
What is the No. 2 bearing and coupling assembly commonly called? |
|
Definition
|
|
Term
What component houses the No. 3 bearing and gear assembly? |
|
Definition
Compressor intermediate case. |
|
|
Term
What component positions the rear compressor stator variable inlet vanes? |
|
Definition
|
|
Term
after what vane stage stator is the interstage bleed valve located? |
|
Definition
|
|
Term
On the rear compressor rotor and stator assembly, what tool should be used to final finish a blend repair. |
|
Definition
|
|
Term
What are the two types of fuel nozzles used on an F100-PW-220 engine? |
|
Definition
|
|
Term
How many spark igniters are contained on the combustion chamber assembly? |
|
Definition
|
|
Term
What type of bearing is the No 4 bearing? |
|
Definition
Roller type with an elliptical outer race |
|
|
Term
What stage of air cools the turbine rotor blades? |
|
Definition
|
|
Term
List the five major components that make up the fan drive turbine module. |
|
Definition
(1) Front compressor drive turbine rotor and stator assembly. (2) Front compressor drive turbine shaft. (3) Rear turbine case and duct set. (4) Turbine exhaust case. (5) No. 5 bearing. |
|
|
Term
What components are connected by the front compressor drive turbine shaft? |
|
Definition
Front compressor drive turbine to the front compressor rotor and stator assembly in the IFM. |
|
|
Term
What does the No. 5 elliptical bearing support? |
|
Definition
The aft end of the front compressor drive turbine shaft. |
|
|
Term
List the four major components that make up the augmentor duct and nozzle module. |
|
Definition
(1) Combustion chamber duct. (2) Combustion chamber liner. (3) Nozzle assembly. (4) Nozzle actuators. |
|
|
Term
How many pressure sensitive fuel spray rings are there? |
|
Definition
|
|
Term
What component protects the augmentor duct from high gas temperature? |
|
Definition
Augmentor combustion chamber liner |
|
|
Term
Where is the augmentor nozzle assembly located? |
|
Definition
Aft of the augmentor duct |
|
|
Term
List the five major components that make up the gearbox module. |
|
Definition
(1) Main gearbox assembly. (2) Main oil pump assembly. (3) Oil filter. (4) Reduction gearbox. (5) Breather pressurizing valve. |
|
|
Term
Where is the main oil pump assembly mounted? |
|
Definition
Front of the main gearbox assembly. |
|
|
Term
What type of constructional concept does the F119 utilize? |
|
Definition
|
|
Term
What is the purpose of engine stations on the F119 engine? |
|
Definition
To provide an additional means of pinpointing locations on the engine. |
|
|
Term
How many modules make up the F119 engine? What are they named? |
|
Definition
Four. Inlet/fan module, core engine module, LPT module, and nozzle module. |
|
|
Term
Name the two major assemblies in the F119 engine. |
|
Definition
Augmentor and gearbox assemblies. |
|
|
Term
Which bearing is located in the inlet case of the IFM? |
|
Definition
|
|
Term
List the six major parts that make up the IFM. |
|
Definition
(1) Inlet case. (2) Fan variable vane actuator. (3) Front compressor rotor. (4) Fan case. (5) Anti-ice manifold. (6) Tt2 sensor. |
|
|
Term
How many inlet struts are contained in the inlet case? |
|
Definition
|
|
Term
Why are the inlet struts/inlet guide vanes hollow? |
|
Definition
To allow anti-icing air from the 9th stage compressor to flow through them. |
|
|
Term
Where is the FVV actuator located? |
|
Definition
It is mounted to the lower fan case at the 7 o’clock position. |
|
|
Term
How many stages of compression does the low pressure compressor (N1) contain? |
|
Definition
Three stages of compression. |
|
|
Term
What are integrally bladed rotors? |
|
Definition
Disks and blades that are made from a single piece of metal which provide better performance and less air leakage. |
|
|
Term
How many Tt2 sensors are in the IFM and where are they/it located? |
|
Definition
One sensor is located at the 5:30 position of the fan inlet guide vane case. |
|
|
Term
Where is the core engine module located? |
|
Definition
Between the fan and the LPT modules. |
|
|
Term
How is the gearbox driven by the core module? |
|
Definition
By a towershaft through the intermediate case. |
|
|
Term
List the five major parts of the core module. |
|
Definition
(1) Intermediate case. (2) HPC. (3) Diffuser case. (4) Combustor. (5) HPT. |
|
|
Term
Where is the No. 2 and No. 3 bearing compartment located? |
|
Definition
Intermediate case of the core module. |
|
|
Term
How many stages of compression are in the HPC? |
|
Definition
Six stages of compression. |
|
|
Term
What is housed in the diffuser case? What is the purpose of the case? |
|
Definition
The compressor-exit guide vanes, the combustor, and the HPT; the diffuser reduces the velocity of compressor discharge air and directs it to the combustion chamber. |
|
|
Term
What type of combustion chamber does the F119 have? |
|
Definition
|
|
Term
List the two stages in the HPT that drive the HPC. |
|
Definition
One turbine vane and rotor assembly. |
|
|
Term
In which direction does the HPT rotate? |
|
Definition
Clockwise as viewed from the rear. |
|
|
Term
How many stages of LPT drive the IFM? |
|
Definition
|
|
Term
|
Definition
Internally air-cooled by 7th stage air. |
|
|
Term
How is the LPT connected to the IFM? |
|
Definition
Ten tie bolts connect the LPT to the IFM |
|
|
Term
In which direction does the LPT rotate? |
|
Definition
Counterclockwise as viewed from the rear. |
|
|
Term
Where is the No. 5 bearing located? |
|
Definition
In the turbine exhause case of the LPT |
|
|
Term
Where is the gearbox located and how is it driven? |
|
Definition
It is mounted to the intermediate case and lower fan case at the 6 o’clock position and is shaft driven by the core module. |
|
|
Term
Where does the gearbox receive the torque to turn the compressor? |
|
Definition
From an external source (aircraft-mounted gearbox) through the PTO on the front of the gearbox. |
|
|
Term
What are the major parts of the gearbox assembly? |
|
Definition
(1) Integral oil reservoir. (2) Main oil filter. (3) PTO adapter. |
|
|
Term
What type of main oil filter is on the F119-PW-100 engine and where is it located? |
|
Definition
20-micron disposable; front/bottom of the gearbox at the 6 o’clock position. |
|
|
Term
What attaching points does the gearbox assembly provide? |
|
Definition
(1) Actuator fuel pump. (2) Main fuel pump. (3) Engine generator/breather pressurizing valve attached to the front. (4) OD1 gang drain. (5) Two chip detectors at 4 o’clock position. (6) Lubrication system pressure and scavenge pump with two chip detectors. (7) Oil servicing and overfill adapter. (8) Oil flow management valve. (9) Oil level sensor. |
|
|
Term
Where is the nozzle module located? |
|
Definition
At the rear of the engine and is mounted to the augmentor assembly. |
|
|
Term
What is the function of the nozzle module? |
|
Definition
Directs the airflow out of the engine and varies the exhaust flow area for optimum engine performance. The nozzle module provides the engine with thrust vectoring capability. |
|
|
Term
How is the nozzle module cooled? |
|
Definition
By fan air by way of four air pump/transfer tube assemblies. |
|
|
Term
How many convergent and divergent actuators are on the nozzle module? |
|
Definition
One upper and one lower convergent actuator and one upper and one lower divergent actuator. |
|
|
Term
What do the convergent actuators do? |
|
Definition
The actuators provide independent position control of the upper and lower convergent flaps. |
|
|
Term
What do the divergent actuators do? |
|
Definition
Actuators provide independent position control of the upper and lower divergent flaps and position the divergent nozzle flaps to establish thrust vectoring angle. |
|
|
Term
Where is the augmentor duct assembly located? |
|
Definition
Between the rear of the support ring and the front of the nozzle module. |
|
|
Term
What is the purpose of the augmentor assembly? |
|
Definition
It provides the outer boundary for augmentor airflow and supports the augmentor liner. |
|
|
Term
What does the augmentor liner incorporate? |
|
Definition
Sixteen fuel nozzles, a single ignitor, and three zones of augmentation. |
|
|
Term
How many fuel nozzles are in the augmentor of the F119-PW-100 engine and what do they do? |
|
Definition
Sixteen; provide fuel to the augmentor combustor during engine augmentation. |
|
|
Term
What are non-modular parts? |
|
Definition
Parts which are not included in modules or assemblies. |
|
|
Term
|
Definition
Parts that can be replaced easily on an individual basis, other than as part of a module, and do not require the engine to be removed from the aircraft. |
|
|
Term
Describe the fan bypass ducts and their function. |
|
Definition
They are the largest of the non-modular components. They are split horizontally to improve accessibility to the engine core module. The fan bypass ducts contain the fan bypass air directing it to the turbine exhaust case and augmentor duct for cooling. This air is also used in the augmentation process. These ducts do not have to be assembled as a matched pair. |
|
|
Term
What are the two major differences between the three types of jet fuels? |
|
Definition
Specific gravity and flash points. |
|
|
Term
Do jet fuels have a high or lower viscosity than aviation gasoline? |
|
Definition
|
|
Term
Why do jet fuels tend to ice up at higher altitudes? |
|
Definition
Because of the extremely low temperatures and the higher viscosity of jet fuels; which prevents adequate settling of water droplets at low temperatures. |
|
|
Term
What did the development of the automatic MFC do for jet engine operators? |
|
Definition
Relieve them of all direct control over engine acceleration and deceleration rate. |
|
|
Term
How does the fuel control reduce the possibility of a flameout? |
|
Definition
By allowing the engine to accelerate and decelerate at a safe rate. |
|
|
Term
What are the two purposes for the fuel/oil cooler? |
|
Definition
(1) Cool the oil and (2) heat the fuel, which aids vaporization and combustion. |
|
|
Term
How are the thrust and RPM output controlled in many centrifugal and single-spool axial-flow engines? |
|
Definition
TIT is allowed to vary inversely with CIT. |
|
|
Term
On a dual-spool axial-flow compressor engine, how does the fuel control determine the thrust output of the engine? |
|
Definition
|
|
Term
What are the two types of fuel controls that are used on most modern aircraft? |
|
Definition
Hydromechanical and electrohydromechanical. |
|
|
Term
Name the four units that make up the unified control system. |
|
Definition
(1) Unified control, (2) augmenter pump controller, (3) rear compressor (N2) sensor, and (4) fan exit temperature sensor. |
|
|
Term
Describe the closed loop design of fuel control systems. |
|
Definition
The engine sends signals to the fuel control and the electronic control so the fuel control and the EEC know how the engine responded to what the fuel control did. |
|
|
Term
If you determine that an unauthorized adjustment has been made to a fuel system part, what should you do? |
|
Definition
Send the part to the authorized depot. |
|
|
Term
What controls engine operation in the primary mode? Secondary? |
|
Definition
|
|
Term
From what four basic sources does the F100 engine DEEC receive signals? |
|
Definition
Engine, MFC, AFC, and airframe. |
|
|
Term
What two modes is the F100 engine MFC capable of operating in? |
|
Definition
|
|
Term
If the fuel filter should become clogged on the F100 engine, what component will allow fuel to bypass? |
|
Definition
|
|
Term
What drives the impeller on the F100 engine AFP? |
|
Definition
13th stage air acting on the turbine. |
|
|
Term
What F100 engine component controls the AFC? |
|
Definition
|
|
Term
What component regulates the F100 engine AFP speed and fuel flow? |
|
Definition
Augmentor fuel pump control (AFPC) |
|
|
Term
What type of pump is on the F108 engine fuel-pump high-pressure stage? |
|
Definition
Positive displacement gear-type. |
|
|
Term
On the F108 engine, what parameters determine the position of the VSVs? |
|
Definition
|
|
Term
What component on the F108 engine acts as electrical override on the hydromechanical MEC? |
|
Definition
|
|
Term
F108 engine fuel flow is divided by the MEC into what two kinds of flow? |
|
Definition
|
|
Term
What component on the F108 engine establishes the schedule for posistioning the VBVs? |
|
Definition
|
|
Term
What component controls the AE2100D3 engine fuel system? |
|
Definition
|
|
Term
On the AE2100D3 engine, as what psid is the fuel flow relief valve in the high-pressure pump fully opened? |
|
Definition
|
|
Term
What component maintains a constant drop of 70 psid to the metering valve and returns excess fuel flow to the inlet side of the high pressure pump on the AE2100D3 engine? |
|
Definition
Pressure Drop and spill valve |
|
|
Term
How many fuel nozzles are installed on the AE2100D3 engine diffuser? |
|
Definition
|
|
Term
What is the purpose of the AE2100D3 engine fuel drain manifold? |
|
Definition
To collect fuel that leaks from the threaded connection of the fuel supply manifold to the fuel nozzle and route the leakage to the engine nacelle drain mast. |
|
|
Term
On the AE2100D3 engine, what supplies power to the FADEC until engine RPM is sufficient for the alternator stator to take control? |
|
Definition
Airplane 28 VDC power supply |
|
|
Term
On the AE2100D3 engine, what component provides the PCU servo valve torquemeter with control inputs? |
|
Definition
|
|
Term
How can the AE2100D3 engine fuel filter bypass indicator be reset? |
|
Definition
By removing the transparent covers to get access to the reset button. |
|
|
Term
At what range of temperature does the AE2100D3 engine fuel temperature switch operate? |
|
Definition
|
|
Term
On the AE2100D3 engine, what component controls the LSOV during normal engine shutdown or shutdown using the fire control handle? |
|
Definition
|
|
Term
Which T56 engine components control the fuel enrichment valve? |
|
Definition
The fuel enrichment relay and the engine fuel enrichment switch. |
|
|
Term
Which T56 engine component acts with the TD valve to control fuel flow during starting to prevent overtemperature and compressor surges? |
|
Definition
|
|
Term
On the T56 engine, what does the extra 20 percent of fuel, sent to the TD valve by the fuel control, enable the valve to do? |
|
Definition
To adjust fuel flow to compensate for variations in air density, Btu content of the fuel, and the manufacturing tolerances in the components of the engine fuel system. |
|
|
Term
On the T56 engine, what conditions must be established for the manifold fuel pressure switch to remain in its normally closed position? |
|
Definition
Condition lever in either the RUN or AIR START position, engine RPM less than 16%, and manifold fuel pressure less than 50 psi. |
|
|
Term
On the T56 engine, what is the purpose of the air shroud that is located on the fuel nozzle? |
|
Definition
Allows airflow around the nozzle tip to reduce carbon deposits, which could clog the nozzle. |
|
|
Term
On the T56 engine fuel nozzles, what type of inspection is performed in addition to the visual inspection? |
|
Definition
Fuel nozzle spray pattern field test. |
|
|
Term
With the TD control valve switch in the AUTO position, what other conditions must be met for the T56 engine TD system to operate in the temperature-controlling mode? |
|
Definition
Engine speed is greater than 94% and the throttle setting is greater than 65°. |
|
|
Term
The two elements of the T56 engine thermocouple assembly are connected to which components? |
|
Definition
TIT indicating system and the TD amplifier. |
|
|
Term
On the T56 engine, what happens to the fuel when it is bypassed by the TD valve? |
|
Definition
Bypassed back to the fuel pump. |
|
|
Term
On the T56 engine, how would you know if the secondary fuel pump failed? |
|
Definition
Indicated by the secondary pump pressure light being off during parallel operation at the next engine start. |
|
|
Term
What happens when the T56 engine fuel enrichment valve is energized open? |
|
Definition
It opens the bypass line and allows fuel from the high-pressure filter to enter the fuel control between the metering portion of the fuel control and the fuel control shutoff valve. |
|
|
Term
Which T56 engine component compares actual and scheduled TIT signals? |
|
Definition
|
|
Term
On the T56 engine, what happens when the difference between the actual and scheduled TIT signals is greater than 4.5 degrees? |
|
Definition
The TD amplifier furnishes an electrical signal to the TD valve that increases or decreases fuel flow to the engine, as required, to equalize the two temperature signals. |
|
|
Term
What does the temperature datum control system test set check? |
|
Definition
It is used to check the temperature datum system, the starting and normal temperature limits, and the over and under-temperature limits. The system is made up of the temperature datum control (amplifier), temperature datum valve, coordinator, speed sensitive control wiring harness, thermocouples and harness. |
|
|
Term
What is the most common type of oil tank used in late-model jet engines? |
|
Definition
|
|
Term
When classified as to function, what two basic types of pumps are used in a jet engine oil system? |
|
Definition
|
|
Term
When classified as to structure, what three types of pumps are used most often in jet engine oil systems? which of these three is the most common? |
|
Definition
Gear, gerotor, and sliding vane. Gear. |
|
|
Term
What are the two types of oil nozzles? |
|
Definition
Restrictive tube and internal passage. |
|
|
Term
What is the purpose of oil coolers that are installed in oil systems? |
|
Definition
|
|
Term
How do air/oil coolers cool the oil? |
|
Definition
By passing hot engine oil through the core of the cooler and having ram air pass over the core. |
|
|
Term
How do fuel/oil coolers cool the oil? |
|
Definition
By having fuel flowing into the tubes of the cooler and oil flowing around the fuel-filled cooler tubes. |
|
|
Term
What two methods are used for controlling oil cooler bypass valves? |
|
Definition
|
|
Term
What is the purpose of the oil system seals? |
|
Definition
To prevent the loss of fluid. |
|
|
Term
Name three general types of oil seals used in jet engines? |
|
Definition
Synthetic, labyrinth, and carbon. |
|
|
Term
What two items should you check on new replacement synthetic seals? |
|
Definition
The cure date and part number. |
|
|
Term
Why should you use extreme care when working with labyrinth seals? |
|
Definition
They are made of soft metal and could be damaged easily. |
|
|
Term
What is the common method of preloading a carbon seal? |
|
Definition
Using spring pressure to push the stationary carbon rubbing surface against the rotating seal plate surface. |
|
|
Term
How does oil get from the oil tank to the main pressure stage of the oil pump assembly? |
|
Definition
|
|
Term
What is the purpose of the bypass valve located in the filter assembly? |
|
Definition
To permit oil to bypass the coolers on cold weather starts. |
|
|
Term
Which component directs oil through the augmentor section of the fuel/oil cooler? |
|
Definition
The augmentor fuel-flow control valve. |
|
|
Term
What type of sump system is sometimes used on a small gas turbine engine? |
|
Definition
|
|
Term
What's the difference between a hot tank system and a cold tank system? |
|
Definition
These terms basically refer to where and at what point the oil is cooled. In a hot tank design, the oil cooler is placed in the pressure subsystem. The cold tank design places the oil cooler in the scavenge subsystem. |
|
|
Term
What indicates the need for maintenance on the F100 engine oil filter? |
|
Definition
Pop-out button device (delta p indicator). |
|
|
Term
How many air/oil coolers are provided on the F100-220 for heat absorption of hot engine oil? |
|
Definition
|
|
Term
What two variables cause the F100 engine oil pressure to vary? |
|
Definition
Rear compressor rotor speed (N2) and engine oil temperature. |
|
|
Term
How is the No. 2 and 3 bearing compartment vented to the gearbox? |
|
Definition
Through the gearbox tower shaft cavity. |
|
|
Term
name the five items that make up the F108 oil tank. |
|
Definition
(1) Oil-out port, (2) oil-in port, (3) vent, (4) antisiphon device, and (5) gravity filler cap. |
|
|
Term
Where is the F108 engine lubrication unit mounted? |
|
Definition
On the accessory gearbox front face, on the right side of the control alternator. |
|
|
Term
The F108 main oil/fuel heat exchanger incorporates what two methods to exchange heat? |
|
Definition
conduction and convection |
|
|
Term
What F108 engine component prevents reverse oil flow? |
|
Definition
|
|
Term
what F108 engine component is utilized to collect drainage of oil leaks? |
|
Definition
|
|
Term
What is the purpose of the AE2100D3 oil system? |
|
Definition
To supply clean, pressurized oil at the proper temperature to cool and lubricate the engine bearings, splines, seals, shafts and gears, and all accessories associated with propeller control. |
|
|
Term
The oil tank of the AE2100D3 engine has a capacity of 12 US gallons. How much of that is contained in the reserve compartment? |
|
Definition
|
|
Term
During what three conditions does the oil tank pendulum supply pressurized oil? |
|
Definition
(1) Normal. (2) Negative G. (3) Zero G conditions. |
|
|
Term
How long will the oil tank provide oil in a negative G condition? |
|
Definition
|
|
Term
At what psig rating is the oil tank pressurized? |
|
Definition
|
|
Term
Describe the oil tank shutoff valve. |
|
Definition
Energize-to-open, energize-to-close type with a manual override lever to open or close the valve. |
|
|
Term
How much oil does the PUAD lube and scavenge pump supply to the bearings and the PUAD at takeoff power? |
|
Definition
|
|
Term
What component drives the PGB lube and scavenge pump? |
|
Definition
|
|
Term
When does the high-pressure bypass valve in the PGB lube and scavenge pump open? |
|
Definition
|
|
Term
What is the purpose of the FCOC? |
|
Definition
To decrease the temperature of the scavenge oil before it goes back to the oil tank. |
|
|
Term
What component controls airflow through the engine ACOC? |
|
Definition
|
|
Term
The oil cooler flap maintains what temperature range? |
|
Definition
|
|
Term
When does the ACAWS message, low level advisory, display? |
|
Definition
When the oil level drops below 4 US gallons. |
|
|
Term
How does the oil tank temperature bulb temperature signal arrive at the mission computer? |
|
Definition
Via the MIL–STD–1553B data bus. |
|
|
Term
On engine shutdown, what part prevents oil from leaking down through the PGB oil pump? |
|
Definition
|
|
Term
Why is the T56 engine oil tank pressurized? |
|
Definition
To help prevent the oil from foaming. |
|
|
Term
What two types of gear pumps are used in the T56 engine oil system? |
|
Definition
|
|
Term
What is the purpose of the oil cooler? |
|
Definition
To reduce the temperature of the oil being used in the engine oil system. |
|
|
Term
How do air/oil-type coolers cool hot oil? |
|
Definition
Air cools the oil as it passes through a core inside the cooler. |
|
|
Term
Which part of the oil cooler valve senses oil temperature? |
|
Definition
Thermostatic bypass valve. |
|
|
Term
What is the purpose of the oil cooler augmentation system? |
|
Definition
To use 14th-stage bleed air to increase airflow through the oil cooler. |
|
|
Term
Bleed air, flowing through which augmentation system component, creates a low-pressure area in front of the oil cooler? |
|
Definition
|
|
Term
What are the two general classes of filters used in the T56 engine oil system? |
|
Definition
The disk (screen) and micron (paper). |
|
|
Term
Why must engine oil system pressure be sufficiently high, yet not too high? |
|
Definition
Sufficiently high to ensure adequate lubrication of the engine and its accessories at high speeds and power settings; not be too high, as leakage and damage to the oil system may result. |
|
|
Term
What is the purpose of the pressure-regulating valve located in the power section main oil pump? |
|
Definition
To bypass excess oil and regulate system oil pressure to 50 to 60 psi. |
|
|
Term
In the power section pressure oil system, what directs oil onto the compressor extension shaft bearing? |
|
Definition
|
|
Term
What is the purpose of the dual-port oil jet located on the front side of the compressor air inlet housing? |
|
Definition
It sprays oil forward into the torquemeter housing to lubricate the midbearing and the center sleeve bearing. |
|
|
Term
Which pump sends oil to the externally mounted scavenge oil filter? |
|
Definition
|
|
Term
Why is oil routed to the fuel heater and strainer? |
|
Definition
So the fuel can be warmed by the oil, if needed. |
|
|
Term
What is the purpose of the check valve located in the RGB pressure oil pump? |
|
Definition
It prevents the oil in the oil tank from draining into the RGB rear case whenever the engine is not in operation. |
|
|
Term
At what pressure are the RGB pressure and scavenge oil system relief valves set? |
|
Definition
|
|
Term
Which RGB scavenge pump scavenges oil during level flight or a nose-up attitude? |
|
Definition
|
|
Term
How does AFTLA receive a sample of each new batch of MIL-PRF-7808 oil? |
|
Definition
Automatically from the manufacturer. |
|
|
Term
What happens to batches of oil not meeting AFTLA requirements? |
|
Definition
The are not released for use by the AF. |
|
|
Term
What happens if an AF unit has oil that has a shelf-life code that is approaching its expiration date? |
|
Definition
Air Force units will apply for an extension via the AFTLA website at https://afpet.wpafb.af.mil/. The product will then be tested and either updated for another period of time or users will be instructed to dispose of the product. |
|
|
Term
How are the users notified if a quality problem arises with a particular oil product? |
|
Definition
The Air Force Petroleum Office’s Weapon System Support Branch (DET3 WR-ALC/AFTT) will send messages via the Defense Messaging System to the MAJCOMs. MAJCOMs will then notify all users of the unsatisfactory product and have it removed from service. |
|
|
Term
Why should lubricating oil be washed from a person's skin as soon as possible? |
|
Definition
Lubricating oil can cause a skin rash. |
|
|
Term
What effect does synthetic oil have on paint, rubber, and some synthetic seals? |
|
Definition
It tends to soften of dissolve them. |
|
|
Term
Why should you do with lubricating oil in excess of what is needed for immediate servicing? |
|
Definition
|
|
Term
Name the three major benefits of the OAP. |
|
Definition
(1) Improved safety, (2) reduced maintenance costs, and (3) increased equipment availability. |
|
|
Term
What form must accompany all oil samples sent to the OAP testing facilities? |
|
Definition
|
|
Term
Who is responsible for serving as the contact point between maintenance and the OAP laboratory? |
|
Definition
|
|
Term
Where will you find wear metal guidelines for your particular engine? |
|
Definition
In the 33–1–37 series TOs. |
|
|
Term
|
Definition
Small particles of metal worn off contacting surfaces by friction. They can be microscopic in size and suspended in the lubricating fluids. |
|
|
Term
What is the rate of production of wear metals under normal conditions? |
|
Definition
|
|
Term
What could be the result of improperly taking an oil sample? |
|
Definition
Erroneous evaluation and possible loss of aircraft. |
|
|
Term
What type of oil sample would the OAP laboratory ask for if the first sample showed an abnormal wear trend? |
|
Definition
An immediate check (red tagged) sample. |
|
|
Term
Name the two places on the engine that are used for taking oil samples. |
|
Definition
Oil filler neck and oil tank drain. |
|
|
Term
On what two factors does the integrity of an oil sample depend? |
|
Definition
(1) Whether the oil has circulated in the system long enough to accumulate wear metal concentrations that will indicate the condition of the system and (2) whether the oil sample truly represents the oil circulating in the system. |
|
|
Term
At what two times should you not take oil samples? |
|
Definition
Less than five hours after an oil change and immediately after oil has been added. |
|
|
Term
What is an advantage of shorter oil sampling intervals? |
|
Definition
The greater probability that initial evidence of failures will be detected. |
|
|
Term
How does an organization normally receive notification that an oil sample reflects a discrepancy? |
|
Definition
|
|
Term
Generally, when should special oil samples be taken? |
|
Definition
Whenever you suspect something is wrong with the engine, or as directed by the TO when some abnormal condition exists within the engine. |
|
|
Term
An aircraft is on a 25-hour oil sample schedule. It's scheduled to fly a six-hour mission tomorrow. The last sample was taken at 9,232 aircraft hours and the aircraft now has 9,254 hours. When should the sample be taken? |
|
Definition
Either before or after the flight. Both times would fall within the ±10 percent of required sampling schedule. |
|
|
Term
Why should great care be taken during sampling to avoid contact between the sampling tube and any other surfaces? |
|
Definition
To prevent contamination. |
|
|
Term
What is SEM/EDX and what equipment is it comprised of? |
|
Definition
An Engine Health monitoring tool developed for automated chemical and structural microanalysis of multiple debris particles; consists of a laboratory standard Scanning Electron Microscope fully integrated with X-ray and image analysis software. |
|
|
Term
What is SEM/EDX used for? |
|
Definition
SEM/EDX is used to identify and monitor material characteristics that can give an indication of accelerated wear or impending failure of typical oil wetted parts and components. |
|
|
Term
What is the major difference between SEM/EDX and the oil analysis process? |
|
Definition
The debris particles being analyzed must be free of oil. |
|
|
Term
What kind of information do the results of the JetSCAN provide? |
|
Definition
Number of particles in each material class, size of each particle, composition of each particle, calculated risk and recommended actions. |
|
|
Term
|
Definition
By moving a conductor through a stationary magnetic field, or by varying the strength of a magnetic field that links a conductor. |
|
|
Term
What is the basic difference between direct current and alternating current? |
|
Definition
Direct current is the flow of current in one direction; alternating current periodically reverses its direction. |
|
|
Term
What device can be used to temporarily store electricity? |
|
Definition
|
|
Term
In what position is the rotating loop in a generator when no voltage is being produced? |
|
Definition
|
|
Term
How is alternating current developed within a generator changed to direct current? |
|
Definition
Each half of a commutator is connected to one terminal of the loop in the generator. Two brushes ride against the commutator segments and carry the current produced by the generated voltage to the external circuit. These brushes are set so each half of the commutator moves out of contact with one brush and into contact with the other brush just as the loop is passing through the position where the induced voltage is zero (at 0 and 180°). |
|
|
Term
What is the purpose of the CSD? |
|
Definition
To drive the AC generator at a constant speed regardless of engine RPM. |
|
|
Term
List the two functions of the CSD governor system. |
|
Definition
(1) To control the drive output speed and thereby, the generator frequency. (2) Equalize the load between generators operating in parallel. |
|
|
Term
What unit senses variations from the desired CSD output speed? |
|
Definition
|
|
Term
What method does the CSD use to adjust the basic speed governor? Explain. |
|
Definition
By magnetic force. A trim coil that is mounted directly above the flyweights, receives the signals from the frequency-and-load controller. This coil then uses magnetic force to add to or subtract from the centrifugal force of the governor flyweights. |
|
|
Term
Why is there a "necked-down" section on the CSD drive shaft spline? |
|
Definition
To protect the engine from damage in the event of major failure of the CSD, drive shaft, or adapter. |
|
|
Term
What unit makes up for differences in the alignment of the CSD and Engine adapter? |
|
Definition
|
|
Term
What is the purpose of the CSD drive shaft? |
|
Definition
To transmit power from the engine to drive the CSD. |
|
|
Term
If the pneumatic pressure switch were placed in the NO position, how would current flow be affected? |
|
Definition
|
|
Term
What does the suffix N of wire D-2822N, which leaves the master warning box, mean? |
|
Definition
|
|
Term
When the thermocouples in an EGT system are hooked up in parallel, what type of circuit is it? |
|
Definition
|
|
Term
What is the purpose of the resistor in the EGT system? |
|
Definition
To calibrate the EGT indicator in the flight station. |
|
|
Term
You receive a work order with the following information: The pilot reports radio interference during engine starting. Which component in the ignition unit is most likely malfunctioning? |
|
Definition
|
|
Term
Approximately how many volts does the AC ignition system deliver to the igniter plug? |
|
Definition
|
|
Term
What are the three main parts of an AC ignition system? |
|
Definition
Ignition relay, transformer, and igniter plug. |
|
|
Term
What are the three main parts of DC ignition system? |
|
Definition
Vibrator, Transformer, and Igniter plug. |
|
|
Term
What function does the vibrator unit in the DC ignition system perform? |
|
Definition
It changes direct current to pulsating current. |
|
|
Term
On the TF33 engine, why are there two complete ignition systems on each engine? |
|
Definition
Safety—if one fails, you have another system as a redundant backup. |
|
|
Term
Which main components make up the T56 engine ignition system? |
|
Definition
Speed-sensitive control, ignition relay, ignition exciter, and the igniter plugs. |
|
|
Term
At what percent engine RPM does the T56 speed-sensitive control de-energize the ignition exciter? |
|
Definition
|
|
Term
At what percent RPM does the T56 speed-sensitive control energize the ignition relay? |
|
Definition
|
|
Term
After the T56 ignition relay closes at 16% RPM, to which components does it complete circuits? |
|
Definition
Fuel pump paralleling valve, manifold drain valve, fuel enrichment valve, and ignition exciter. |
|
|
Term
After 28 VDC is input to the T56 ignition exciter, what is the resultant output? |
|
Definition
Approximately 23,000 volts pulsing at 5 to 12 sparks per second. |
|
|
Term
Where does the exciter get its power on an F100 engine? |
|
Definition
From the engine generator. |
|
|
Term
What is the discharge rate fro the main (core) igniter plug on an F100 engine? |
|
Definition
One to five sparks per second. |
|
|
Term
Where does the AE2100D3 electrical power for the ignition system come from? |
|
Definition
Engine-mounted alternator stator |
|
|
Term
How many circuits are used in the AE2100D3 ignition system? |
|
Definition
|
|
Term
When will the alternator stator supply operating power to each exciter on the AE2100D3? |
|
Definition
When the gas generator turbine rotor speed (Ng) is at more than 10% RPM. |
|
|
Term
What is the output of the AE2100D3 alternator stator? |
|
Definition
|
|
Term
When will a spark rate fault be recorded in the maintenance log on the AE2100D3? |
|
Definition
Any time the rate is less than two per second. |
|
|
Term
What is the rate of spark in an AE2100D3 exciter? |
|
Definition
Four to seven sparks each second. |
|
|
Term
What is the basic requirement for a jet engine starter to be effective? |
|
Definition
It must be able to rotate the engine compressor to a predetermined speed, enabling the engine to accelerate even after the starter is disengaged. |
|
|
Term
Name the three types of jet engine starters. |
|
Definition
(1) Air turbine (impingement), (2) pneumatic, and (3) cartridge-pneumatic. |
|
|
Term
What is meant when it is said that the cartridge-pneumatic starter is self-contained? |
|
Definition
The starter has the capability to start the engine without the use of ground support equipment. |
|
|
Term
How are the effects of high temperature and erosion reduced in the cartridge-pneumatic starter? |
|
Definition
By using ambient air through the turbine along with the cartridge gases. |
|
|
Term
Where does the JFS receive its fuel supply? |
|
Definition
|
|
Term
List three advantages of a JFS. |
|
Definition
(1) Quick engine starts. (2) Capability for motoring or starting the engine without the use of any ground support equipment. (3) Capability for starting engine while in flight. |
|
|
Term
The compressor inlet gearbox housing of the JFS provides drive pads and mounting flanges for what assemblies? |
|
Definition
Fuel control, two-speed switch assembly, and CGB. |
|
|
Term
What is the main purpose of the JFS power turbine assembly? |
|
Definition
To provide energy for driving the JFS/CGB/AMAD system gearboxes, engine starting, and aircraft accessories. |
|
|
Term
What type of combustion section does the JFS have? |
|
Definition
reverse flow, annular type |
|
|
Term
What four items comprise the JFS fuel system? |
|
Definition
Fuel-flow bypass, fuel filter assembly, fuel control assembly, and fuel atomizer and tubes assemblies. |
|
|
Term
Positive pressure is maintained in the fuel control during shutdown by what system? |
|
Definition
|
|
Term
What drives the JFS fuel control? |
|
Definition
|
|
Term
What is the purpose of the JFS fuel control? |
|
Definition
To control the amount of fuel flowing into the combustion chamber. |
|
|
Term
The JFS system is dependent on what component for its oil lubrication? |
|
Definition
|
|
Term
Name the three items that comprise the JFS ignition system? |
|
Definition
Ignition unit, igniter plug, and a high-voltage ignition lead. |
|
|
Term
The JFS drain system consists of what two items? |
|
Definition
Combustion drain valve and fuel drain support assembly. |
|
|
Term
Name the four major assemblies that make up the F-15 SPS. |
|
Definition
(1) JFS, (2) CGB, (3) left AMAD gearbox, and (4) right AMAD gearbox. |
|
|
Term
How are the JFS and CGB connected? |
|
Definition
|
|
Term
If the JFS power turbine should accelerate to a 110% overspeed condition, what item would provide a safety cutoff? |
|
Definition
Power turbine overspeed switch. |
|
|
Term
Name the four basic constructional features of an AMAD. What feature is part of only a L/H AMAD? |
|
Definition
(1) Housing assembly, (2) geartrain, (3) lubrication system, and (4) a 50-percent engine cutout switch assembly. Manual decoupler. |
|
|
Term
What is the purpose of the 50-percent engine cutout switch assembly? |
|
Definition
To stop the engine starting cycle when the engine has accelerated to starter cutout speed. |
|
|
Term
After the JFS has reached self-sustaining speed, how is the hydraulic start motor disengaged? |
|
Definition
By and Overrunning clutch. |
|
|
Term
At what point during the start sequence is the JFS ready for engine starting? |
|
Definition
After the JFS stabilizes at idle. |
|
|
Term
What must be done to shut down the JFS after the second engine has been started? |
|
Definition
Nothing, the JFS shuts down automatically after the second engine starts. |
|
|
Term
Which unit connects the ADG to the F-16 engine? |
|
Definition
|
|
Term
What component schedules the start of fuel and ignition for the JFS? |
|
Definition
|
|
Term
Describe the operation of the ESS controller as PTO shaft speed reaches 50-percent. |
|
Definition
It opens acceleration clutch, shuts off fuel to JFS, and releases start switch in flight station. |
|
|
Term
Where is the air turbine starter mounted? |
|
Definition
To the PUAD on the RH rear side. |
|
|
Term
Where is the air exhaust from the starter vented? |
|
Definition
|
|
Term
How many ounces of engine oil are used to lubricate the gear train? |
|
Definition
|
|
Term
How is the starter control valve actuated? |
|
Definition
Electrically by a 28 VDC signal. |
|
|
Term
What component is signaled by a position switch on the starter control valve to indicate whether the valve is open or closed? |
|
Definition
|
|
Term
Where is the engine start panel located? |
|
Definition
In the flight station on the overhead console. |
|
|
Term
What four functions is the engine start panel used to perform? |
|
Definition
(1) Ground starting. (2) Air starting. (3) Motoring the engine. (4) Normal ground engine shutdown. |
|
|
Term
The start panel is monitored and controlled by the mission computer by which bus? |
|
Definition
|
|
Term
When are the fuel enrichment switches used? |
|
Definition
For starting the engine in extremely cold weather. |
|
|
Term
During engine startup, what does it mean when the SEC FP lights illuminate? |
|
Definition
The main fuel pump is in parallel operation. |
|
|
Term
What component of the start system controls the supply of air to the starter? |
|
Definition
|
|
Term
Which type of starter is used on the T56 engine? |
|
Definition
|
|
Term
What are the three housings of the pneumatic starter? |
|
Definition
|
|
Term
List three ways that air can be supplied to start the engine. |
|
Definition
(1) By connecting an external source of compressed air to the aircraft. (2) By starting the APU or GTC. (3) By using bleed air from another operating engine. |
|
|
Term
The engine anti-icing system is designed to prevent ice formation by using what as a heat source? |
|
Definition
Engine compressor discharge air. |
|
|
Term
What are the effects of ice buildup on an engine inlet? |
|
Definition
Loss of thrust that is detected on certain axial-flow engines by a drop in turbine discharge pressure or engine pressure ratio if the condition is sufficiently severe. |
|
|
Term
What is usually the first indication of ice formation at the engine inlet? |
|
Definition
|
|
Term
What type of switch controls the anti-ice system? |
|
Definition
|
|
Term
How is the anti-ice valve controlled and operated? |
|
Definition
It's solenoid controlled and air operated. |
|
|
Term
Why is the anti-ice valve held open during engine start? |
|
Definition
To help prevent a compressor stall. |
|
|
Term
Compressor bleed air is extracted from what stator exit stage? |
|
Definition
|
|
Term
Air is ducted into the fan flow path through how many exit slots? |
|
Definition
|
|
Term
What is the purpose of the anti-icing system? |
|
Definition
To prevent or remove ice on the scoop and vanes of the air inlet system. |
|
|
Term
What happens to the engine anti-icing system valves if power is lost to the ice detection system? |
|
Definition
The valves open and both systems are on. |
|
|
Term
Which electrically operated valve in the scoop anti-icing system allows air to flow to the scoop? |
|
Definition
|
|
Term
Which component of the vane anti-icing system has primary control? |
|
Definition
Anti-icing solenoid valve. |
|
|
Term
What two methods are used to control airflow through and engine compressor? |
|
Definition
Restricting the airflow by the use of VSVs or dumping off excess air at the appropriate time through a bleed valve or bleed strap arrangement. |
|
|
Term
Which type of duct design does a high bypass usually have? |
|
Definition
|
|
Term
Where are variable vanes usually positioned in a compressor to control airflow most effectively? |
|
Definition
In the first few stages of compression. |
|
|
Term
Briefly explain the difference between the bleed system and the variable vane system. |
|
Definition
VSVs control air before it gets into the compressor; the bleed system lets all the air in, but bleeds off a certain amount of air at a particular stage of compression. |
|
|
Term
Where is a bleed strap located on an engine? How is it controlled? |
|
Definition
Around the compressor case. By some type of actuator. |
|
|
Term
What is considered the critical range of operation for dual-rotor compressor engines? |
|
Definition
That point where the low-speed, low-pressure compressor (N1) air supply is more than the high-speed, high-pressure compressor (N2) can use. |
|
|
Term
Why is air bled from the N1 compressor? |
|
Definition
To prevent stalls through the critical ranges of engine operation. |
|
|
Term
What is the potential outcome if airflow is not properly controlled during engine operation? |
|
Definition
|
|
Term
List the six conditions that could cause a compressor stall. |
|
Definition
(1) Reduction or restriction of the air inlet. (2) Excessive fuel scheduling. (3) Restriction of the turbine nozzle discharge area. (4) Restriction of the exhaust nozzle area. (5) Damaged or dirty compressor rotor blades. (6) Malfunction of the variable geometry systems or bleed air system. |
|
|
Term
Where does the airflow for cooling turbine nozzles vanes originate? |
|
Definition
The last few stages of compressor airflow. |
|
|
Term
What two types of stress act on the turbine rotor blades? |
|
Definition
Heat and rotational forces. |
|
|
Term
Where does cooling airflow go after it has cooled the turbine section? |
|
Definition
Back into the gas stream to exit the engine along with the exhaust gases. |
|
|
Term
The flexible feed cables for the VBVs and VSVs transmit signals to what component? |
|
Definition
|
|
Term
How is leakage from the fuel pump to the fuel gear motor minimized? |
|
Definition
By a low, steady pressure setting. |
|
|
Term
The 3-D scheduling cam is positioned by what two variables? |
|
Definition
|
|
Term
What part of the IGV is fixed and serves as an integral part of the front frame? |
|
Definition
|
|
Term
IGV flap position is scheduled by what component? |
|
Definition
|
|
Term
Below 45 percent corrected core engine speed, in what position are the VSVs? |
|
Definition
|
|
Term
What components provide the required force to move the VSVs? |
|
Definition
Core compressor VSV actuators. |
|
|
Term
What two variables determine the position of the 3-D cam? |
|
Definition
Core engine speed and fan discharge temperature signals. |
|
|
Term
What is the purpose of the compressor control system? |
|
Definition
To keep compressor stall problems to a minimum at low speed (engine start and stop). |
|
|
Term
What does the CVG system move and control? |
|
Definition
Compressor IGV and the first five rows of compressor stator vanes. |
|
|
Term
Where are the upper and lower compressor air bleed valves mounted? |
|
Definition
On separate adapters that are installed on the bleed air manifold on the 10th stage of the compressor. |
|
|
Term
What is the purpose of the upper and lower compressor air bleed valves? |
|
Definition
To help to prevent compressor stall or surge by controlling the air bleed during engine start and acceleration. |
|
|
Term
In what position are the compressor air bleed valves after start and during normal engine operation? |
|
Definition
|
|
Term
Where is the compressor acceleration bleed control valve mounted? |
|
Definition
To the aft anti-icing tube at the diffuser housing. |
|
|
Term
What does the compressor acceleration bleed control valve control? |
|
Definition
Fourteenth-stage air pressure applied to the top area of each upper and lower compressor air bleed valves. |
|
|
Term
When the compressor acceleration bleed control valve closes, what does it prevent? |
|
Definition
Air flow from the 14th-stage air supply line. |
|
|
Term
What is the purpose of the CVG system? |
|
Definition
To change the angle of compressor stator vane stages one through five to assist with engine power control. |
|
|
Term
How is the CVG actuator controlled? |
|
Definition
By high-pressure fuel from the FPMU. |
|
|
Term
What component continuously monitors the LVDT signal for the compressor IGV position? |
|
Definition
|
|
Term
With engines running, where does the FPMU send fuel pressure? |
|
Definition
|
|
Term
What is the purpose of the bleed air system? |
|
Definition
To relieve air from the 5th and 10th stages of the compressor during engine start, acceleration, and other operating conditions with engine RPM less than 94%. |
|
|
Term
Which component of the bleed air system controls the closing of the bleed air valves? |
|
Definition
|
|
Term
When are the bleed air valves open? |
|
Definition
When the engine is operating at less than 94% RPM. |
|
|
Term
How are the bleed air valves closed? |
|
Definition
The speed-sensitive valve opens and allows air pressure from the 14th stage of the compressor to close the compressor bleed valves. |
|
|
Term
What is the purpose of a thrust reverser? |
|
Definition
To direct a jet engine’s thrust in the opposite direction. |
|
|
Term
what are some constructional features required for an acceptable thrust reverser? |
|
Definition
It must not affect engine performance under any circumstance, whether the reverser is or is not in operation. It must be able to withstand high temperatures, and it must be mechanically strong, light weight, reliable, and fail-safe. |
|
|
Term
What is the most successful type of thrust reverser? |
|
Definition
|
|
Term
Explain how the aerodynamic blockage type of thrust reverser operates. |
|
Definition
Thin foils or obstructions are placed in the exhaust stream to alter the course of the gases and direct them into turning vanes. |
|
|
Term
The thrust reverser control valve actuates hydraulic power for actuating what components? |
|
Definition
The fan and core thrust reversers |
|
|
Term
The operation of the control valve is in what three functional modes? |
|
Definition
Stowed and locked, deploying, and stowing. |
|
|
Term
The fan thrust reverser door upper right and left sensors send a signal to which channel of the EEC? |
|
Definition
|
|
Term
The C-17 has how many fan blocker doors? |
|
Definition
|
|
Term
Where are the core reverser actuator lock proximity sensors mounted? |
|
Definition
The sensors are mounted on the core reverser actuators. |
|
|
Term
The C-17 has how many core blocker doors? |
|
Definition
|
|
Term
How many linear hydraulic actuators are used to deploy and stow the fan thrust reverser? |
|
Definition
|
|
Term
The fan thrust reverser uses what mechanical linkage to synchronize the upper and lower actuators? |
|
Definition
The fan thrust reverser synchronizing shaft provides a mechanical synchronization between the upper and lower actuators. |
|
|
Term
The C-17 has how many 95 percent proximity sensors? |
|
Definition
|
|
Term
Where are the four lock proximity sensors located on the fan reverser? |
|
Definition
Upper right, lower right, upper left, and lower left. |
|
|
Term
Name the four fundamental parts of an augmentor. |
|
Definition
(1) Augmentor duct, (2) spraybars, (3) flameholder, and (4) exhaust nozzle. |
|
|
Term
What does the augmentor duct contain? What does it support? |
|
Definition
The augmentor combustion chamber liner. The augmentor nozzle and actuators. |
|
|
Term
Which part of the augmentor reduces the velocity of the gases so that the flame stability is maintained during augmentor operation? |
|
Definition
|
|
Term
What is the primary purpose of a typical variable-nozzle system? |
|
Definition
To provide the correct nozzle area for proper engine and augmentor operation. |
|
|
Term
name the four types of variable-nozzle systems. |
|
Definition
(1) Flap, (2) iris, (3) convergent-divergent, and (4) vectoring. |
|
|
Term
What is used to operate the flaps in the flap-type nozzle system? |
|
Definition
Air pressure acting on a series of pistons. |
|
|
Term
How many pistons does a typical iris-type nozzle system have? |
|
Definition
|
|
Term
What is the most important advantage gained from using a C-D variable-nozzle system? |
|
Definition
Increased life expectancy of the engine and augmentor. |
|
|
Term
What is the purpose of the augmentor ignition system? |
|
Definition
To develop the spark necessary to ignite the fuel in the augmentor. |
|
|
Term
What are the two methods of igniting the augmentor fuel? |
|
Definition
Torch igniter and pilot burner ring. |
|
|
Term
How does the torch igniter initial afterburning? |
|
Definition
A small combustion chamber shell extends into the augmentor duct; fuel, air, and an electric spark are supplied; and the torch igniter ignites the fuel in the augmentor. |
|
|
Term
What causes ignition on the pilot burner ring system? |
|
Definition
|
|
Term
What types of materials are used to construct the augmentor nozzle? |
|
Definition
Titanium, honeycomb, and corrugated sheet metal. |
|
|
Term
How are the convergent nozzle segments protection from heat? |
|
Definition
By seals that have a heat-resistant coating. |
|
|
Term
The divergent exhaust nozzle is what kind of system? |
|
Definition
|
|
Term
The divergent nozzle segments are free-floating, permitting what types of operations? |
|
Definition
|
|
Term
What positions the ballscrew actuators as requested by the DEEC? |
|
Definition
|
|
Term
What component is supported inside the augmentor liner? |
|
Definition
|
|
Term
What component spread the flame to the radial gutter of the flameholder? |
|
Definition
|
|
Term
Axial movement of the actuation ring is achieved by what components? |
|
Definition
Four hydraulic nozzle actuators. |
|
|
Term
Which propeller subassembly retains the blades, attaches the propeller to the engine shaft, and transmits engine torque to the blades? |
|
Definition
|
|
Term
Which part of the barrel assembly provides seats for the front and rear cones and also supports the control assembly? |
|
Definition
|
|
Term
Which propeller subassembly transfers hydraulic fluid to the inboard and outboard sides of the dome piston? |
|
Definition
|
|
Term
What are the primary components that lock the propeller dome piston and blades in a fixed pitch position? |
|
Definition
Pitchlock regulator, stationary pitchlock ratchet, and rotating pitchlock ratchet. |
|
|
Term
Which blades component helps prevent fluid from entering the blade shank and also has washers mounted on it for balance purposes? |
|
Definition
|
|
Term
Which part is used in place of the beta segment gear on blades No. 2, 3, and 4? |
|
Definition
|
|
Term
Which dome assembly part provides a sliding sealing surface between the piston and low-pitch stop? |
|
Definition
|
|
Term
Which dome assembly part prevents the cam bearing rollers from bottoming out in the track slopes? |
|
Definition
|
|
Term
What are the function of the low pitch stop assembly? |
|
Definition
A safety device; prevents the propeller from going into the beta (ground) range when the throttle is positioned in the alpha (flight) range; and mechanically stops the dome piston from decreasing blade angle below 23.3° (± 0.5) unless the stop levers are retracted. |
|
|
Term
What is the dome piston permitted to accomplish when the low pitch stop assembly levers are released? |
|
Definition
To move and change blade angle while the propeller is operating in the beta range. |
|
|
Term
Which propeller subassembly provides a means for minor balancing and also supports the front and rear spinners? |
|
Definition
|
|
Term
Which propeller assembly provides electrical circuits between the brush block assembly and the spinner, afterbody, and blade assemblies? |
|
Definition
Deicer contact ring holder assembly. |
|
|
Term
Which deicer contact ring holder slip ring is used as a common ground? |
|
Definition
|
|
Term
The spinner and afterbody assemblies enclose which propeller assemblies? |
|
Definition
Dome, barrel, and control assemblies. |
|
|
Term
Which propeller subassemblies do not rotate? |
|
Definition
Control assembly, afterbody mounting bracket, and afterbody assembly. |
|
|
Term
What is the purpose of the afterbodies? |
|
Definition
Streamline airflow into the engine air inlet for maximum recovery of ram air; minimize air drag on the engine nacelle; prevent ice buildup (anti-icing) around the control assembly. |
|
|
Term
What are the primary mechanical controls provided to the control assembly? |
|
Definition
Throttle and condition lever. |
|
|
Term
What drives the main, standby, and main scavenge pumps? |
|
Definition
Propeller rotation through the rotating sleeve. |
|
|
Term
what is the purpose of the differential drive gear train assembly? |
|
Definition
Drives the propeller governor fly weight assembly and transmits blade angle movement to the valve housing. |
|
|
Term
When are the auxiliary pressure and auxiliary scavenge pumps used? |
|
Definition
Propeller static (engine not running), feathering, and unfeathering operation. |
|
|
Term
Which pump housing part maintains 15 to 20 psi pressure differential between the atmospheric and pressurized pumps? |
|
Definition
|
|
Term
The power transmitted by the brush block assembly is used to supply the propeller with what capability? |
|
Definition
Propeller anti-icing and deicing. |
|
|
Term
Name the three main standby systems that supply hydraulic pressure to the propeller. |
|
Definition
Main, standby, and auxiliary. |
|
|
Term
The output of which pump is used for normal hydraulic system operation? |
|
Definition
|
|
Term
Which valve limits hydraulic system pressure to 1300 psi above pressurized sump pressure? |
|
Definition
|
|
Term
When the backup valve is opened and pressure is routed to the governor pilot valve, the pressure is used to accomplish what three propeller operations? |
|
Definition
To release the low pitch stop, to unfeather the propeller, and for reverse pitch operation. |
|
|
Term
How is the operation of the auxiliary pump initiated? |
|
Definition
When the engine condition lever is placed in either FTR or AIR START and when the fire emergency handle is pulled. |
|
|
Term
The standby pump's additional output is required during what situations? |
|
Definition
Feather, reverse, and significant off-speed conditions. |
|
|
Term
Between what two blade angles can pitchlock occur? |
|
Definition
|
|
Term
Besides restricting overspeeds, what other purpose does the pitchlock regulator have? |
|
Definition
Transfers fluid to the outboard and inboard sides of the dome piston. |
|
|
Term
What two things can keep the stationary and rotating ratchets from engaging? |
|
Definition
By increase- or decrease-pitch pressure, or by the pitchlock locking control cam. |
|
|
Term
What predetermined overspeed setting allows the ratchets to engage? |
|
Definition
|
|
Term
During and overspeed greater than 103.5 percent RPM, what would cause blade angle to decrease, if the pitchlock ratchets do not engage? |
|
Definition
CTM (Centrifugal Twisting Moment). |
|
|
Term
The low pitch stop mechanically prevents blade angle from decreasing below what degree setting? |
|
Definition
|
|
Term
In what propeller operating range can the low pitch stop limit decreasing blade angle? |
|
Definition
|
|
Term
At what psi is the servo valve unseated, thus allowing the wedge to move? |
|
Definition
|
|
Term
Controllable pitch can only occur between what degree settings on the coordinator protractor? |
|
Definition
|
|
Term
For what can positive thrust and negative thrust be used on a controllable pitch propeller? |
|
Definition
Positive thrust––taxiing; negative thrust––backing. |
|
|
Term
Does a controllable pitch propeller maintain constant RPM? |
|
Definition
|
|
Term
What does the throttle coordinate in the controllable pitch range? |
|
Definition
Propeller pitch and engine fuel flow. |
|
|
Term
constant speed occurs between what degrees on the coordinator protractor? |
|
Definition
|
|
Term
On a constant speed controller, if propeller speed decreases, what happens to blade angle? |
|
Definition
|
|
Term
In the beta range, what moves the pilot valve? |
|
Definition
Cams and mechanical linkage. |
|
|
Term
When the throttle is moved below the FLT IDLE gate, what cam increases speed spring tension? |
|
Definition
|
|
Term
Which cam centers the pilot valve to stop hydraulic action and blade movement? |
|
Definition
|
|
Term
If the throttle were moved from RVS to GND IDLE, which cam moves the governor pilot valve to increase pitch? |
|
Definition
|
|
Term
In the alpha range, the governor pilot valve is positioned to maintain what RPM? |
|
Definition
|
|
Term
What drives the governor flyweights? |
|
Definition
Propeller rotation through gears on the differential gear train. |
|
|
Term
During and overspeed condition, what part of the propeller governor moves the pilot valve? |
|
Definition
|
|
Term
During and overspeed condition, the governor pilot valve meters fluid to the increase-pitch (forward) side of the dome piston; what is the result of this action? |
|
Definition
This drives the piston rearward, which increases blade angle and therefore, decreases engine speed. |
|
|
Term
During and underspeed condition, what part of the propeller governor moves the pilot valve? |
|
Definition
|
|
Term
To correct for and underspeed condition, does blade angle need to increase or decrease? |
|
Definition
|
|
Term
What two ways can the propeller be feathered? |
|
Definition
By moving the condition lever to FTR or by pulling the fire emergency handle. |
|
|
Term
The condition lever provides what type of signals to the control assembly? |
|
Definition
Electrical and mechanical |
|
|
Term
When the condition lever is moved to FTR and the alpha shaft rotates, which cam acts through a mechanical linkage and opens the feather actuating valve? |
|
Definition
|
|
Term
Which valve acts as a backup in case the mechanical linkage fails to open to feather actuating valve? |
|
Definition
|
|
Term
When the blades move toward feather, main and standby pump pressure drops off; why? |
|
Definition
The pumps are driven by propeller rotation, so their output drops off as the engine slows down. |
|
|
Term
Why are the auxiliary pressure and auxiliary scavenge pump able to complete the feathering process when the main and standby pumps stop operating? |
|
Definition
They are electrically driven and their operation doesn’t depend on propeller shaft rotation. |
|
|
Term
What two components serve as grounds for the prop feather override button-holding coil? |
|
Definition
Pressure cutout switch and PCBS |
|
|
Term
When the feather override button is pulled in, circuit to which components are completed? |
|
Definition
The amber light in the override button, feather relay, feather solenoid valve, and the feather pump motor relay. |
|
|
Term
Why is it necessary for the PCBS to provide a secondary ground? |
|
Definition
To prevent interruption of the feathering operation due to a surge of pressure that may occur when blade angle is below 81° to 85°. |
|
|
Term
Once the propeller reaches full feather, when are teh PCBSs opened? |
|
Definition
When fluid pressure increases to about 600 to 800 psi. |
|
|
Term
What is the only difference in the feathering process when using the fire emergency handle to feather the propeller instead of the condition lever? |
|
Definition
The manual feather cam does not rotate and shift the feather valve through the mechanical linkage. |
|
|
Term
What is the minimum psi required to release the feather latches and allow the piston to move forward? |
|
Definition
|
|
Term
When attempting to air-start and engine in flight, what helps the propeller to rapidly accelerate? |
|
Definition
The windmilling effect of the airflow past the propeller. |
|
|
Term
What two cams control the unfeathering operation? |
|
Definition
Manual feather cam and beta set cam. |
|
|
Term
When is the condition lever released to the RUN position? |
|
Definition
When rpm reaches lightoff. |
|
|
Term
List the mechanical components of the NTS system and their locations. |
|
Definition
An actuator rod in the RGB, an NTS bracket mounted to the front of the RGB, and mechanical linkage in the valve housing. |
|
|
Term
Which parts are actuated and positioned by the NTS system actuator rod when a negative torque condition occurs? |
|
Definition
Actuates the NTS switch and positions the mechanical linkage to shift the feather actuating valve and feather valve. |
|
|
Term
When propellers are rotating at different speeds, what tends to rise and fall? |
|
Definition
Beat noise and vibration levels. |
|
|
Term
Besides maintaining propellers at the same speeds, what else does synchrophasing maintain in order to achieve minimum noise levels? |
|
Definition
Maintains the best (optimum) blade phase angle that yields minimum noise. |
|
|
Term
When either propeller No. 2 or 3 is selected as the master propeller to add synchrophasing, what happens to the other three propellers? |
|
Definition
The are then slaved to the selected master. |
|
|
Term
What component corrects the propellers to obtain the best phase angle relationship between master and slaves? |
|
Definition
|
|
Term
What are the three propeller governing modes of operation? |
|
Definition
Mechanical, normal, and synchrophasing. |
|
|
Term
In the mechanical governing mode, what directly affects all propeller governor control? |
|
Definition
Mechanical linkage affecting the tension on the speeder spring and the governing action of the flyweights. |
|
|
Term
Which propeller-governing mode provides the foundation for two other propeller-governing modes? |
|
Definition
|
|
Term
The normal governing mode supplements mechanical governing by adding what two functions? |
|
Definition
Throttle anticipation and speed stabilization. |
|
|
Term
To obtain the normal governing mode, what conditions must be met? |
|
Definition
The throttle must be at or above the FLT IDLE position, the synchrophase master switch must be in the OFF position, and the propeller governor control switch must be in the NORMAL position. |
|
|
Term
During normal governing operation, what stabilizes the propeller governor during rapid throttle movement? |
|
Definition
Throttle anticipation circuit. |
|
|
Term
During what modes of propeller governing can throttle anticipation function? |
|
Definition
Normal and synchrophasing. |
|
|
Term
When the throttle is moved and a signal is sent to the synchrophaser unit, what component changes speeder spring force to the pilot valve? |
|
Definition
|
|
Term
When the governor control switch is in the MECH GOV position, what two conditions can cause the governor to overspeed or underspeed? |
|
Definition
A change in throttle position or changes in propeller loading. |
|
|
Term
During engine stabilization, what will cause the tachometer generator signal to change and trigger the synchrophaser to change the propeller blade angle? |
|
Definition
|
|
Term
When an increase in RPM occurs during engine speed stabilization, how is an overspeed condition prevented? |
|
Definition
The synchrophaser will position the speed bias motor to decrease speeder spring tension. A decrease in speeder spring tension allows the governor flyweights to position the governor pilot valve to increase blade angle. |
|
|
Term
When an decrease in RPM occurs during engine speed stabilization, how is an underspeed condition prevented? |
|
Definition
The synchrophaser will position the speed bias motor to increase speeder spring tension. An increase in speeder spring tension allows the governor flyweights to position the pilot valve to decrease blade angle. |
|
|
Term
What two functions supplement the normal governing mode when synchrophasing is added? |
|
Definition
Maintaining all propellers at identical speeds and maintaining optimum blade phase angles between all propellers. |
|
|
Term
What component will not allow the synchrophasing mode of governing to operate at throttle settings below FLT IDLE? |
|
Definition
Synchrophaser disarming switch. |
|
|
Term
To add synchrophasing to the normal governing mode, which switches must be moved and to what positions? |
|
Definition
Place the synchrophase master switch to either the ENGINE 2 or ENGINE 3 position and place the prop resynchrophase switch to the NORMAL (or blank) position. |
|
|
Term
If the propellers are not at the same speeds or at the optimum phase angles, a positive or negative speed and phase error voltage is produced. What does this positive or negative voltage represent? |
|
Definition
The difference in the amount of speed the slave propellers require to match that of the master propeller and the difference in the amount of lead and lag the slave propellers require to obtain the best phase angle relationship with the master. |
|
|
Term
The No. 2 engine is selected as a master and is operating at 100.25% RPM. Suddenly the engine flames out. What will the the resulting RPM of the slave propellers? |
|
Definition
98.25%. (The slave propellers will only decrease their speed by 2%). |
|
|
Term
When is indexing the synchrophaser system normally required? |
|
Definition
When either a synchrophaser unit or valve housing is replaced. |
|
|
Term
What three sets of switches are used during the indexing procedure? |
|
Definition
Synchrophase master, prop resynchrophase, and propeller governing switches. |
|
|
Term
What are some of the methods used for inspecting a propeller? |
|
Definition
Visual, dimensional, and special. |
|
|
Term
Which inspection method would be used if you were required to check the pulse generator for proper clearance? |
|
Definition
|
|
Term
Which inspection method could be used to determine if minute cracks are suspected in a propeller blade? |
|
Definition
|
|
Term
If a part requires an NDI and is has been thoroughly cleaned, what further responsibility do you have? |
|
Definition
Schedule it for inspection by the NDI shop. |
|
|
Term
Why is it sometimes hard to determine from where a propeller is leaking? |
|
Definition
Centrifugal force normally throws the hydraulic fluid everywhere. |
|
|
Term
When a propeller is written up for a fluid leak, what components should be removed in order to better view the propeller assembly? |
|
Definition
Top afterbody and front spinner. |
|
|
Term
List the different areas where the propeller should be inspected for leaks. |
|
Definition
Dome cap, dome assembly at its junction with the barrel, parting surfaces (split-line) of the propeller barrel, propeller barrel blade arms, barrel extension shaft, and the control assembly. |
|
|
Term
When performing the fluid leakage inspection, what is the hydraulic fluid leak limit from the control assembly, whether it is running or static? |
|
Definition
One drop every 45 seconds (4 ounces in 24 hours). |
|
|