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2014-11-25
WIP Standard
AIR5464A
Over the past decade several metal clad fibers and fabrics have been developed to provide aerospace vehicle designers with a conductive, lighter weight alternative to coated copper or steel for shielding and harness overbraids of electrical cables. Several of these candidates have been unable to provide the strength or thermal stability necessary for the aerospace environment. However, the aramid-based products have shown remarkable resistance to the rigorous environment of aerospace vehicles. Concurrent with these fiber developments, there have been changes in the structures of aerospace vehicles involving greater use of nonmetallic outer surfaces. This has resulted in a need for increased shielding of electrical cables which adds substantial weight to the vehicle. Thus, a lighter weight shielding material has become more critical to meet the performance requirements of the vehicle.
HISTORICAL
1978-10-01
Standard
AMS3579A
This specification covers a non-crosslinked polyvinyl chloride plastic in the form of flexible, thin-wall, heat-strinkable tubing with a low recovery temperature. These products have been used typically as a flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 150 degrees C (302 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -20 to +105 degrees C (-4 to 221 degrees F).
HISTORICAL
1979-05-01
Standard
AMS3579
This specification covers a non-crosslinked polyvinyl chloride plastic in the form of flexible, thin-wall, heat-strinkable tubing with a low recovery temperature. These products have been used typically as a flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 150 degrees C (302 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -20 to +105 degrees C (-4 to 221 degrees F).
HISTORICAL
1991-10-01
Standard
AMS3579B
This specification covers a non-crosslinked polyvinyl chloride plastic in the form of flexible, thin-wall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1996-04-01
Standard
AMS3579C
This specification covers a non-crosslinked polyvinyl chloride plastic in the form of flexible, thinwall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1996-04-01
Standard
AMS3579D
This specification covers a non-crosslinked polyvinyl chloride plastic in the form of flexible, thinwall, heat-shrinkable tubing with a low recovery temperature.
CURRENT
2017-02-06
Standard
AMS3579E
This specification covers a non-crosslinked polyvinyl chloride plastic in the form of flexible, thinwall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1984-07-01
Standard
AMS3593
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified-polyvinylidene-fluoride plastic in the form of semi-rigid, extra-thin-wall, heat-shrinkable tubing.
CURRENT
2017-03-02
Standard
AMS3593B
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified-polyvinylidene-fluoride plastic in the form of extra-thin-wall tubing.
HISTORICAL
1991-01-01
Standard
AMS3593A
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified-polyvinylidene-fluoride plastic in the form of extra-thin-wall tubing.
HISTORICAL
1978-04-01
Standard
AMS3587A
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of a thin-wall, heat-shrinkable tubing with a low recovery temperature. This tubing has been used typically as a very flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 100 degrees C (212 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -55 to +135 degrees C (-67 to +275 degrees F).
HISTORICAL
1982-04-01
Standard
AMS3587B
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of a thin-wall, heat-shrinkable tubing with a low recovery temperature. This tubing has been used typically as a very flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 100 degrees C (212 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -55 to +135 degrees C (-67 to +275 degrees F).
HISTORICAL
1969-11-01
Standard
AMS3587
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of a thin-wall, heat-shrinkable tubing with a low recovery temperature. This tubing has been used typically as a very flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 100 degrees C (212 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -55 to +135 degrees C (-67 to +275 degrees F).
CURRENT
2011-09-01
Standard
AMS3588E
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of thin-wall, heat-shrinkable tubing with a low recovery temperature.
CURRENT
2011-09-01
Standard
AMS3587E
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of a thin-wall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1969-11-01
Standard
AMS3588
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of thin-wall, heat-shrinkable tubing with a low recovery temperature. This tubing has been used typically as a very flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 100 degrees C (212 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -55 to +135 degrees C (-67 to +275 degrees F).
HISTORICAL
1993-01-01
Standard
AMS3587D
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of a thin-wall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1989-04-01
Standard
AMS3587C
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of a thin-wall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1993-01-01
Standard
AMS3588D
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of thin-wall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1989-04-01
Standard
AMS3588C
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of thin-wall, heat-shrinkable tubing with a low recovery temperature.
HISTORICAL
1982-04-01
Standard
AMS3588B
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of thin-wall, heat-shrinkable tubing with a low recovery temperature. This tubing has been used typically as a very flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 100 degrees C (212 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -55 to +135 degrees C (-67 to +275 degrees F).
HISTORICAL
1980-07-01
Standard
AMS3588A
This specification covers an irradiated, thermally-stabilized, modified polyolefin plastic in the form of thin-wall, heat-shrinkable tubing with a low recovery temperature. This tubing has been used typically as a very flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 100 degrees C (212 degrees F) or higher, but usage is not limited to such applications. This tubing is stable for continuous exposure from -55 to +135 degrees C (-67 to +275 degrees F).
HISTORICAL
1968-11-01
Standard
AMS3625
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified silicone rubber in the form of heat shrinkable tubing. Primarily for use as a flexible, electrical insulation tubing whose diameter can be reduced to a predetermined size by heating to 175 degrees C (347 degrees F) or higher. This tubing is stable under the following conditions: -70 to +180 degrees C (-94 to +356 degrees F) Continuous; -70 to +300 degrees C (-94 to +572 degrees F) 4 hours.
HISTORICAL
1980-07-01
Standard
AMS3625A
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified silicone rubber in the form of heat shrinkable tubing.
HISTORICAL
2009-07-20
Standard
AMS3625C
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified silicone rubber in the form of heat shrinkable tubing.
CURRENT
2016-02-23
Standard
AMS3625D
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified silicone rubber in the form of heat shrinkable tubing.
HISTORICAL
1989-04-01
Standard
AMS3625B
This specification covers an irradiated, thermally-stabilized, flame-resistant, modified silicone rubber in the form of heat shrinkable tubing.
HISTORICAL
1993-07-01
Standard
AMS3683A
This specification covers a thermally-stabilized, irradiated, modified fluoropolymer in the form of very-thin-wall tubing.
HISTORICAL
1988-04-01
Standard
AMS3683
This specification covers a thermally-stabilized, flame-resistant, modified fluoropolymer in the form of very-thin-wall tubing.
CURRENT
2017-02-28
Standard
AMS3683B
This specification covers a thermally-stabilized, irradiated, modified fluoropolymer in the form of very-thin-wall tubing.
Viewing 1 to 30 of 515