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2015-11-19
WIP Standard
AIR6079A
The purpose of this report is to provide design, application and maintenance engineers with basic information on the use of metallic Spring Energized sealing devices when used as piston (OD) and rod (ID) seals in aircraft fluid power components such as actuators, valves, and swivel glands. The Spring Energized seal is defined and the basic types in current use are described. Guidelines for selecting the type of Spring Energized seal for a given design requirement are covered in terms of friction, leakage, service life, installation characteristics, and interchangeability. Spring Energized seals can also be made in various forms and types, including face seals (internal and external pressure sealing types), and rotary variants too. These further types will not be discussed in this document, but many of the same principles apply for them as well.
HISTORICAL
2011-05-25
Standard
AIR6082
This AIR documents the methodologies used to calculate the dimensions and tolerances used in the following backup rings standards: AS5781 AS5782 AS5860 AS5861 In addition, an appendix is provided which provides details of gland and backup ring design practices.
CURRENT
2016-06-09
Standard
AIR6082A
This AIR documents the methodologies used to calculate the dimensions and tolerances used in the following backup rings standards: AS5781 AS5782 AS5860 AS5861 In addition, an appendix is provided which provides details of gland and backup ring design practices.
CURRENT
2010-12-02
Standard
AIR6079
The purpose of this report is to provide design, application and maintenance engineers with basic information on the use of metallic Spring Energized sealing devices when used as piston (OD) and rod (ID) seals in aircraft fluid power components such as actuators, valves, and swivel glands. The Spring Energized seal is defined and the basic types in current use are described. Guidelines for selecting the type of Spring Energized seal for a given design requirement are covered in terms of friction, leakage, service life, installation characteristics, and interchangeability. Spring Energized seals can also be made in various forms and types, including face seals (internal and external pressure sealing types), and rotary variants too. These further types will not be discussed in this document, but many of the same principles apply for them as well.
HISTORICAL
1965-01-10
Standard
AIR786
This document contains data relative to the chemical nature of aerospace fluids and relates each to its effect upon elastomeric components. Since the compatibilities of elastomers are determined by the compounding as well as the nature of the base polymer, the elastomers considered are limited to finished compounds for which material or performance specifications could be referenced.
CURRENT
2014-11-06
Standard
AIR786B
This document contains data relative to the chemical nature of aerospace fluids and relates each to its empirical effect upon elastomeric components. Since the compatibilities of elastomers are determined by the compounding as well as the nature of the base polymer, the elastomers considered are limited to finished compounds for which material or performance specifications can be referenced.
HISTORICAL
1972-04-18
Standard
AIR786A
This document contains data relative to the chemical nature of aerospace fluids and relates each to its effect upon elastomeric components. Since the compatibilities of elastomers are determined by the compounding as well as the nature of the base polymer, the elastomers considered are limited to finished compounds for which material or performance specifications could be referenced.
HISTORICAL
1973-06-01
Standard
AIR1244
The SLIPPER SEAL is defined and the basic types in current use are described. Guide lines for selecting the type of Slipper Seal for a given design requirement are covered in terms of friction, leakage, service life, installation characteristics and interchangeability.
CURRENT
2013-02-10
Standard
AIR1243C
This SAE Aerospace Information Report (AIR) provides information on anti blow-by design practice for cap seals. Suggestions for piston cap seal sidewall notch design and other anti blow-by design details are also described. It also includes information on two key investigations based on the XC-142 as part of the text and as Appendix A.
HISTORICAL
1999-12-01
Standard
AIR1243B
This SAE Aerospace Information Report (AIR) provides information on anti blow-by design practice for cap seals. Suggestions for piston cap seal sidewall notch design and other anti blow-by design details are also described. It also includes information on two key investigations based on the XC-142 as part of the text and as Appendix A.
CURRENT
1988-10-01
Standard
AIR1244A
The slipper seal is defined and the basic types in current use are described. Guide lines for selecting the type of slipper seal for a given design requirement are covered in terms of friction, leakage, service life, installation characteristics, and interchangeability.
HISTORICAL
1978-03-01
Standard
AIR1243
This SAE Aerospace Information Report (AIR) provides information on anti blow-by design practice for cap-strip seals. Suggestions for piston cap strip seal sidewall notch design and other anti blow-by design details are also described. It also includes information on two key investigations based on the XC-142 as part of the text and as Appendix A. The purpose of this document is to provide adequate information to the designer so that the problem will not reoccur.
HISTORICAL
1989-01-01
Standard
AIR1243A
Suggestions for piston cap-strip seal side wall notch design and other anti blowby design details are described.
CURRENT
1969-07-15
Standard
AIR1108
Groove designs presented herein are applicable for use with machined or formed metal seals which are similar in configuration to those shown in figure 3, which operate under internal pressure or in vacuum service and which have been specifically qualified or recommended by the purchaser or the manufacturer for use with this AIR. They are also applicable for use with metal o-rings (e.g., MS9142, MS202 thru MS9205) where interchangeability with machined or formed metal seals is desired. For metal o-ring groove designs where inter-changeability is not a requirement refer to ARP 674.
CURRENT
1996-06-01
Standard
AMS3369A
This specification has been "CANCELLED" by the Aerospace Materials Division, SAE, as of June, 1996.
CURRENT
2011-11-07
Standard
AMS3500G
This specification covers leather tanned with chromium salts and retanned with vegetable tanning material.
HISTORICAL
1991-01-01
Standard
AMS3500E
This specification covers leather tanned with chromium salts and retanned with vegetable tanning material.
HISTORICAL
1975-06-01
Standard
AMS3500C
This specification covers leather tanned with chromium salts and retanned with vegetable tanning material.
HISTORICAL
1984-01-01
Standard
AMS3500D
This specification covers leather tanned with chromium salts and retanned with vegetable tanning material.
HISTORICAL
1995-08-01
Standard
AMS3500F
This specification covers leather tanned with chromium salts and retanned with vegetable tanning material.
HISTORICAL
1951-06-01
Standard
AMS3500B
This specification covers leather tanned with chromium salts and retanned with vegetable tanning material.
HISTORICAL
1942-06-01
Standard
AMS3500A
This specification covers leather tanned with chromium salts and retanned with vegetable tanning material.
CURRENT
2017-01-18
Standard
AMS3400
This specification covers a polyalphaolefin/ester-blend fluid.
CURRENT
2013-08-05
Standard
AMS3384
This specification covers a high temperature, compression set and fluid resistant fluorocarbon (FKM) rubber in the form of sheet, strip, tubing, extrusions, and molded shapes for aeronautical and aerospace applications.
CURRENT
1987-01-01
Standard
AMS3852A
CURRENT
1987-01-01
Standard
AMS3851A
HISTORICAL
1948-05-01
Standard
AMS3851
HISTORICAL
1948-11-01
Standard
AMS3852
Viewing 1 to 30 of 858

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