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Insulation Sleeving, Electrical, Heat Shrinkable, Silicone Rubber, Flexible

2018-12-06
CURRENT
AMSDTL23053/10B
The requirements for acquiring the sleeving described herein shall consist of this specification sheet and the issue of the following specification listed in that issue of the Department of Defense Index of Specifications and Standards (DODISS) specified in the solicitation: MIL-DTL-23053.
Standard

Insulation Sleeving, Electrical, Heat Shrinkable, General Specification For

2018-12-05
CURRENT
AMSDTL23053A
This specification establishes the requirements for various types and colors of electrical insulating sleeving that will shrink to a predetermined size upon the application of heat. This specification includes provisions for demonstrating compliance with requirements through in process inspection and statistical process control (see 4.4.3.1). Continuous operating temperature ratings range from-80° to +250°C (-112° to +482°F) (see 6.1).
Standard

Cable, Thermocouple Extension, Shielded and Unshielded

2018-10-17
WIP
AS5419A
This SAE Aeorrspace Standard (AS) covers the requirements for thermocouple extension cable. Manufacturers of primary thermocouple wire in accordance with this specification must be qualified to the similar wire type specified in Table 1.
Standard

Wire, Electric, Polyvinyl Chloride Insulated, Copper or Copper Alloy

2018-10-15
CURRENT
AS50861B
This specification covers polyvinyl chloride insulated single conductor electric wires made with tin-coated copper conductors or silver-coated copper alloy conductors. The polyvinyl chloride insulation of these wires may be used alone or in combination with other insulating or protective materials.
Standard

Metal Clad Fibers for Electrical Shielding and Harness Overbraid

2018-08-23
CURRENT
AIR5464A
Over the past two and one-half decades several metal clad fibers and fabrics have been developed to provide aerospace vehicle designers with a conductive, lighter weight alternative to coated copper, coated stainless steel and steel wire used for cable and wire shielding and harness overbraids on electrical cables. Several of these candidates have been unable to provide the strength or thermal stability necessary for the aerospace environment. However, several polymer-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.
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