Search Results

Standard

ASBESTOS AND SYNTHETIC RUBBER SHEET Hot Oil Resistant

1977-01-01

HISTORICAL

AMS3232K

This specification covers a compressed asbestos and synthetic rubber material in the form of sheets and rolls.

Standard

Age Control of Age Sensitive Elastomeric Materials

2018-04-11

CURRENT

AIR1364B

This SAE Aerospace Information Report (AIR) summarizes data and background relative to age control of specific classes of those nitrile type synthetic elastomers used in sealing devices which are resistant to petroleum base hydraulic fluids, lubricating oils, and aircraft fuels. This includes, but is not limited to, those nitrile (NBR or BUNA-N) elastomers previously covered by Section I of MIL-STD-1523.

Standard

Age Control of Age Sensitive Elastomeric Materials

2003-12-30

HISTORICAL

AIR1364A

This SAE Aerospace Information Report (AIR) summarizes data and background relative to age control of specific classes of those nitrile type synthetic elastomers used in sealing devices which are resistant to petroleum base hydraulic fluids, lubricating oils, and aircraft fuels. This includes, but is not limited to, those nitrile (NBR or BUNA-N) elastomers previously covered by Section I of MIL-STD-1523.

Standard

CLOTH, NYLON, POLYURETHANE COATED Plain Weave, 4.0 oz per sq yd (135 g/m2)

1984-07-01

HISTORICAL

AMS3272/2

This specification covers a woven nylon cloth coated with polyether (EU) urethane which is thermally, radio frequency, or ultrasonically sealable and having air holding characteristics.

Standard

CLOTH, NYLON, POLYURETHANE COATED Plain Weave, 6.0 oz per sq yd (200 g/m2)

1984-07-01

HISTORICAL

AMS3272/1

This specification covers a woven nylon cloth coated with polyether (EU) urethane which is thermally, radio frequency, or ultrasonically sealable and having air holding characteristics.

Standard

CLOTH, NYLON, POLYURETHANE COATED Plain Weave, 9.2 oz per sq yd (310 g/m2)

1984-07-01

HISTORICAL

AMS3272/3

This specification covers a woven nylon cloth coated with polyether (EU) urethane which is thermally, radio frequency, or ultrasonically sealable and having air holding characteristics.

Standard

Cork and Rubber Composition Sheet; for Aromatic Fuel and Oil Resistant Gaskets

2013-04-12

HISTORICAL

AMSC6183A

This specification covers vulcanized sheet made of granulated cork uniformly dispersed in a synthetic rubber compound, for use in gaskets where aromatic fuel or oil resistance is required (See 6.2).

Standard

Cork and Rubber Composition Sheet; for Aromatic Fuel and Oil Resistant Gaskets

2019-06-10

CURRENT

AMSC6183B

This specification covers vulcanized sheet made of granulated cork uniformly dispersed in a synthetic rubber compound, for use in gaskets where aromatic fuel or oil resistance is required (See 6.2).

Standard

DESIGNING WITH ELASTOMERS FOR USE AT LOW TEMPERATURES, NEAR OR BELOW GLASS TRANSITION

1995-03-01

HISTORICAL

AIR1387B

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, Near or Below Glass Transition

2020-11-12

WIP

AIR1387E

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

Elastomer: Rubber, Silicone (MQ/VMQ/PVMQ) Flame Retardant, Low Smoke Density, Low Smoke Toxicity 50 – 60 Durometer Type A Hardness for Products in Pressurized Aircraft Compartment Interiors

2022-03-29

CURRENT

AMS3742

This specification covers a self-extinguishing, pigmentable silicone (MQ/VMQ/PVMQ) elastomer that can be used to manufacture product in the form of molded, extruded, and/or calendared, sheets, strips, and shapes.

Standard

Elastomer: Silicone Rubber (MQ/VMQ) Flame Retardant, Low Smoke Density, Low Smoke Toxicity, High Strength, 65 - 75 Durometer Type A Hardness For Products in Pressurized Aircraft Compartment Interiors

2019-08-30

CURRENT

AMS3310A

This specification covers a silicone (MQ/VMQ) elastomer that can be used to manufacture product in the form of molded sheet, strips, and shapes, color coded white in accordance with ARP1527.

Standard

FIRE RESISTANT PROPERTIES FOR AIRCRAFT MATERIALS

1954-11-01

HISTORICAL

AMS3851

Standard

FLAME RESISTANCE TREATMENT OF INTERIOR FABRICS

1948-11-01

HISTORICAL

AMS3855

Standard

FLAME RESISTANT PROPERTIES FOR AIRCRAFT MATERIALS

1954-11-01

HISTORICAL

AMS3852

Standard

FLUID, REFERENCE FOR TESTING DI-ESTER (POLYOL) RESISTANT MATERIAL

1989-01-01

HISTORICAL

AMS3021A

This specification covers a neopentyl polyol ester fluid.

Standard

FLUID, REFERENCE FOR TESTING DI-ESTER (POLYOL) RESISTANT MATERIAL

2004-03-26

HISTORICAL

AMS3021B

This specification covers a neopentyl polyol ester in the form of a fluid.

Standard

FLUID, REFERENCE FOR TESTING POLYOL ESTER (AND DIESTER) RESISTANT MATERIAL

2003-11-17

HISTORICAL

AMS3023

This specification covers a trimethylol propane triheptanoate fluid (See 8.1) representative of gas turbine engine oils.