Search Results

Standard

Disposition of Damaged Wheels Involved in Accidents/Incidents

2020-09-17

CURRENT

ARP5600

This SAE Aerospace Recommended Practice (ARP) establishes a procedure for disposition of aircraft wheels that have been involved in accidents/incidents or have been exposed to overheat conditions or overload conditions from loss of adjacent tire pressure (paired wheels) or wheel tie bolts.

Standard

Recommended Wheel Tie Bolt Preload Procedure

2007-08-09

HISTORICAL

ARP5481

This SAE Aerospace Recommended Practice (ARP) provides the recommended procedure for obtaining desired preloads in aircraft wheel tie bolts when mounting tires and assembling the wheel. It is generally referred to as the snug-angle bolted joint assembly procedure. It is also known as the “torque-turn” procedure in the heavy equipment ground vehicle industry.

Standard

Recommended Wheel Tie Bolt Preload Procedure

2020-09-17

CURRENT

ARP5481A

This SAE Aerospace Recommended Practice (ARP) provides the recommended procedure for obtaining desired preloads in aircraft wheel tie bolts when mounting tires and assembling the wheel. It is generally referred to as the snug-angle bolted joint assembly procedure. It is also known as the “torque-turn” procedure in the heavy equipment ground vehicle industry.

Standard

DISPOSITION OF WHEELS WHICH HAVE BEEN OVERHEATED

1965-01-01

HISTORICAL

AIR811

Standard

BRAKE DYNAMICS

1979-07-01

HISTORICAL

AIR1064A

Standard

Valve, Inflation, Aircraft Wheel

2019-11-14

CURRENT

AS6817

This SAE Aerospace Standard (AS) defines the configuration of aircraft wheel inflation valve assemblies, including required tolerances, materials, and appropriate finishes.

Standard

USAF Aircraft Wheels

2012-05-09

HISTORICAL

AIR4012B

This SAE Aerospace Information Report (AIR) documents general technical data associated with many of the wheels used in the Air Force.

Standard

USAF Aircraft Wheels

2012-07-19

CURRENT

AIR4012C

This SAE Aerospace Information Report (AIR) documents general technical data associated with many of the wheels used in the Air Force.

Standard

Maintainability Recommendations for Aircraft Wheel and Hydraulically Actuated Brake Design

2022-07-13

WIP

ARP813D

This SAE Aerospace Recommended Practice (ARP) recommends the maintainability features which should be considered in the design of aircraft wheels and brakes. The effect on other factors, such as, cost, weight, reliability, and compatibility with other systems should be weighed before the incorporation of any of these maintainability features into the design.

Standard

Maintainability Recommendations for Aircraft Wheel and Hydraulically Actuated Brake Design

2019-02-15

CURRENT

ARP813C

This SAE Aerospace Recommended Practice (ARP) recommends the maintainability features which should be considered in the design of aircraft wheels and brakes. The effect on other factors, such as, cost, weight, reliability, and compatibility with other systems should be weighed before the incorporation of any of these maintainability features into the design.

Standard

Wheels and Brakes, Supplementary Criteria for Design Endurance Civil Transport Aircraft

2006-10-26

HISTORICAL

ARP597C

This document recommends supplementary design criteria to enhance endurance and reliability of transport aircraft wheels and brakes.

Standard

Wheel and Brake (Sand and Permanent Mold) Castings - Minimum Requirements for Aircraft Applications

2005-01-05

HISTORICAL

AS586B

This SAE Aerospace Standard (AS) sets forth the minimum quality required for aircraft wheel and brake castings. Its use will establish minimum acceptable requirements for internal structure and surface conditions and is predicated on the use of a casting factor for the ultimate load of more than 1.51 through 2.00. When casting factors of 1.25 through 1.50 are used, visual, penetrant, and radiographic or other approved equivalent nondestructive inspection methods shall all be required on each production casting. Where specific parts, or areas of parts, require a quality level exceeding that described by this document, the requirements shall be established by negotiation between the purchaser and vendor.

Standard

Wheel and Brake (Sand and Permanent Mold) Castings - Minimum Requirements for Aircraft Applications

2002-07-30

HISTORICAL

AS586A

This SAE Aerospace Standard (AS) sets forth the minimum quality required for aircraft wheel and brake castings. Its use will establish minimum acceptable requirements for internal structure and surface conditions and is predicated on the use of a casting factor for the ultimate load of more than 1.51 through 2.00. When casting factors of 1.25 through 1.50 are used, visual, penetrant, and radiographic or other approved equivalent nondestructive inspection methods shall all be required on each production casting. Where specific parts, or areas of parts, require a quality level exceeding that described by this document, the requirements shall be established by negotiation between the purchaser and vendor.

Standard

WHEEL AND BRAKE (SAND AND PERMANENT MOLD) CASTINGS — MINIMUM REQUIREMENTS FOR AIRCRAFT APPLICATIONS

1965-01-20

HISTORICAL

AS586

This standard sets forth the minimum quality required for aircraft wheel and brake castings. Its use will establish minimum acceptable requirements for internal structure and surface conditions and is predicated on the use of a casting factor for the ultimate load of 1.51 (minimum) to 2.00 (maximum). When casting factors of 1.25 minimum to 1.50 maximum are used, visual, penetrant, and radiographic or other approved equivalent non-destructive inspection methods shall all be required on each production casting. Where specific parts or areas require a quality level exceeding that described by this standard, the requirements shall be established by negotiation between the purchaser and vendor.

Standard

Nondestructive Inspection (NDI) Methods Used During Production and Operation of Aircraft Wheels and Brakes

2018-10-15

CURRENT

AIR4777C

This SAE Aerospace Information Report (AIR) identifies current nondestructive inspection (NDI) methods used to ensure product integrity and maximize "in service" life of the major structural components of aircraft wheel and brake assemblies.

Standard

Nondestructive Inspection (NDI) Methods Used During Production and Operation of Aircraft Wheels and Brakes

2018-09-02

HISTORICAL

AIR4777B

This SAE Aerospace Information Report (AIR) identifies current nondestructive inspection (NDI) methods used to ensure product integrity and maximize "in service" life of the major structural components of aircraft wheel and brake assemblies.

Standard

NONDESTRUCTIVE INSPECTION (NDI) METHODS USED DURING PRODUCTION AND OPERATION OF AIRCRAFT WHEELS AND BRAKES

1994-09-01

HISTORICAL

AIR4777

This SAE Aerospace Information Report (AIR) identifies current nondestructive inspection (NDI) methods used to insure product integrity and maximize "in service" life of the major structural components of aircraft wheel and brake assemblies.

Standard

Nondestructive Inspection (NDI) Methods Used During Production and Operation of Aircraft Wheels and Brakes

2012-05-11

HISTORICAL

AIR4777A

This SAE Aerospace Information Report (AIR) identifies current nondestructive inspection (NDI) methods used to insure product integrity and maximize "in service" life of the major structural components of aircraft wheel and brake assemblies.

Standard

Carbon Brake Contamination and Oxidation

2016-04-12

CURRENT

AIR5490A

This document provides information on contamination and its effects on brakes having carbon-carbon composite friction materials (carbon). Carbon is hygroscopic and porous, and therefore readily absorbs liquids and contaminants. Some of the contaminants can impact intended performance of the brake. This document is intended to raise awareness of the effects of carbon brake contamination and provide information on industry practices for its prevention. Although not addressed in this report, contaminants can cause problems with other landing system components including tires.

Standard

Carbon Brake Contamination

2012-05-09

HISTORICAL

AIR5490

This document provides information on contamination and its effects on brakes having carbon-carbon composite friction materials (carbon). Carbon is hygroscopic and porous, and therefore readily absorbs liquids and contaminants. Some of the contaminants can impact intended performance of the brake. This document is intended to raise awareness of the effects of carbon brake contamination and provide recommendations for its prevention. Although not addressed in this report, contaminants can cause problems with other landing system components including tires.