Standard
Rubber Silicone, High Strength, Cabin Pressure Seal Material, Diaphragm Type
1998-05-01
HISTORICAL
AMSR83283
This specification covers 45 durometer hardness, high strength silicone rubber.
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Standard
Gasket, Metallic-Encased
2014-05-27
CURRENT
AMSHHG101A
This specification covers metallic-encased gaskets with and without inlays.
Standard
Rubber Silicone, High Strength, Cabin Pressure Seal Material, Diaphragm Type
2014-03-19
CURRENT
AMSR83283A
This specification covers 45 durometer hardness, high strength silicone rubber.
Standard
REFERENCE FLUID FOR TESTING HYDROCARBON FUEL RESISTANT MATERIALS 10% Aromatic Content
1994-09-01
HISTORICAL
AMS3022B
This specification covers a hydrocarbon fluid mixture for use as a reference fuel test fluid to evaluate the ability of polymeric compounds to conform to designated requirements after immersion in the fluid at a specific temperature for a specified time, as required by an applicable specification.
Standard
Reference Fluid for Testing Hydrocarbon Fuel Resistant Materials: 10% Aromatic Content
1998-11-01
HISTORICAL
AMS3022C
This specification covers a hydrocarbon fluid mixture for use as a reference fuel test fluid to evaluate the ability of polymeric compounds to conform to designated requirements after immersion in the fluid at a specific temperature for a specified time, as required by an applicable specification.
Standard
Reference Fluid for Testing Hydrocarbon Fuel Resistant Materials: 10% Aromatic Content
2011-09-23
CURRENT
AMS3022D
This specification covers a hydrocarbon fluid mixture for use as a reference fuel test fluid to evaluate the ability of polymeric compounds to conform to designated requirements after immersion in the fluid at a specific temperature for a specified time, as required by an applicable specification.
Standard
Test Slabs, Fluoroelastomer (FKM), 70–80 Hardness, for Improved Gas Turbine Engine Oil Compatibility
2017-10-18
CURRENT
AMS3217/8A
This specification covers a fluorocarbon (FKM) rubber stock in the form of molded test slabs.
Standard
Elastomer: Fluorosilicone Rubber (FVMQ) Fuel and Oil Resistant 75 - 85 Durometer Type “A” Hardness For Products in Fuel Systems/Lubricating Oils
2019-02-28
CURRENT
AMS3741
This specification covers a fluorosilicone (FVMQ) elastomer that can be used to manufacture product in the form of sheet, strip, tubing, extrusions, and molded shapes. This specification should not be used for molded rings, compression seals, O-ring cord, and molded in place gaskets for aeronautical and aerospace applications without complete consideration of the end use prior to the selection of this material.
Standard
Designing with Elastomers for Use at Low Temperatures, Near or Below Glass Transition
2003-12-30
HISTORICAL
AIR1387C
To ensure success in design of elastomeric parts for use at low temperature, the design engineer must understand the peculiar properties of rubber materials at these temperatures. There are no static applications of rubber. The Gaussian theory of rubber elasticity demonstrates that the elastic characteristic of rubber is due to approximately 15% internal energy and the balance, 85%, is entropy change. In other words, when an elastomer is deformed, the elastomer chain network is forced to rearrange its configuration thereby storing energy through entropy change. Thermodynamically, this means that rubber elasticity is time and temperature dependent (Reference 25). The purpose of this report is to provide guidance on low temperature properties of rubber with the terminology, test methods, and mathematical models applicable to rubber, and to present some practical experience.
Standard
Designing with Elastomers for use at Low Temperatures, Near or Below Glass Transition
2016-01-15
CURRENT
AIR1387D
To ensure success in design of elastomeric parts for use at low temperature, the design engineer must understand the peculiar properties of rubber materials at these temperatures. There are no static applications of rubber. The Gaussian theory of rubber elasticity demonstrates that the elastic characteristic of rubber is due to approximately 15% internal energy and the balance, 85%, is entropy change. In other words, when an elastomer is deformed, the elastomer chain network is forced to rearrange its configuration thereby storing energy through entropy change. Thermodynamically, this means that rubber elasticity is time and temperature dependent (Reference 25). The purpose of this report is to provide guidance on low temperature properties of rubber with the terminology, test methods, and mathematical models applicable to rubber, and to present some practical experience.
Standard
DESIGNING WITH ELASTOMERS FOR USE AT LOW TEMPERATURES
2011-08-09
HISTORICAL
AIR1387A
Standard
DESIGNING WITH ELASTOMERS FOR USE AT LOW TEMPERATURES, NEAR OR BELOW GLASS TRANSITION
1995-03-01
HISTORICAL
AIR1387B
Standard
TOP VISUAL QUALITY (TVQ) O-RING PACKINGS AND GASKETS - SURFACE INSPECTION GUIDE AND ACCEPTANCE STANDARD
1965-11-01
HISTORICAL
AS708
This standard establishes the inspection requirements and acceptance standards for optimum surface finish O-ring packings and gaskets. (This is not an O-ring specification as such.)
Standard
Rubber, Ethylene-Propylene, Hydrazine Resistant
2011-09-23
CURRENT
AMSR83412A
This specification covers three types of rubber having good resistance to high and low temperature and hydrazine type propellants, but poor resistance to hydrocarbon oils or solvents. Hydrazines are hazardous chemicals. See “Dangerous Properties of Industrial Materials” by N. Irving Sax.
Standard
Rubber, Ethylene-Propylene, Hydrazine Resistant
1999-07-01
HISTORICAL
AMSR83412
This specification covers three types of rubber having good resistance to high and low temperature and hydrazine type propellants, but poor resistance to hydrocarbon oils or solvents. Hydrazines are hazardous chemicals. See “Dangerous Properties of Industrial Materials” by N. Irving Sax.
Standard
Fluorosilicone (FVMQ) Rubber Fuel and Oil Resistant 65 - 75
2010-05-17
HISTORICAL
AMS3331B
This specification covers a fluorosilicone (FVMQ) rubber in the form of sheet, strip, tubing, extrusions, and molded shapes.
Standard
Elastomer: Fluorosilicone Rubber (FVMQ) Fuel and Oil Resistant 65 – 75 Shore A Hardness For Products in Fuel Systems/Lubricating Oils
2017-11-20
CURRENT
AMS3331C
This specification covers a fluorosilicone (FVMQ) elastomer that can be used to manufacture product in the form of sheet, strip, tubing, extrusions, and molded shapes. This specification should not be used for molded rings, compression seals, O-ring cord, and molded in place gaskets for aeronautical and aerospace applications without complete consideration of the end use prior to the selection of this material.
Standard
Fluorosilicone (FVMQ) Rubber Fuel and Oil Resistant 65 - 75
2001-02-01
HISTORICAL
AMS3331A
This specification covers a fluorosilicone (FVMQ) rubber in the form of sheet, strip, tubing, extrusions, and molded shapes.
Standard
Elastomer: Fluorosilicone (FVMQ) Rubber Fuel and Oil Resistant 45 – 55 For Products in Fuel Systems/Lubricating Oils
2017-11-21
HISTORICAL
AMS3330C
This specification covers a fluorosilicone (FVMQ) elastomer that can be used to manufacture product in the form of sheet, strip, tubing, extrusions, and molded shapes. This specification should not be used for molded rings, compression seals, O-ring cord, and molded in place gaskets for aeronautical and aerospace applications without complete consideration of the end use prior to the selection of this material.
Standard
Fluorosilicone (FVMQ) Rubber Fuel and Oil Resistant 45 - 55
2010-05-17
HISTORICAL
AMS3330B
This specification covers a fluorosilicone (FVMQ) rubber in the form of sheet, strip, tubing, extrusions, and molded shapes.
