Composite Inorganic Resilient Seal Materials
Report Number: WADC TR 59-338 Part 3
Author(s): Smith, L. L.
Corporate Author(s): Armour Research Foundation
Laboratory: Materials Central
Date of Publication: 1961-03
Pages: 77
Contract: AF 33(616)-5793
DoD Project: 8128
DoD Task: 73027
Identifier: AD0462222
Abstract:
The principal objective of this research program is to investigate and develop composite materials suitable for use as static and dynamic seals at temperatures ranging from cryogenic to 1200 F and pressures up to 5000 psi. Materials investigated may be grouped as follows: (1) Fibrous composites with pure metal impregnants. An example is stainless steel fiber skeletons impregnated with silver and/or indium with which promising results have been obtained at temperatures of 1000 F for reciprocating shaft seals and -424 F for static seals. (2) Fibrous composites with other impregnants. Included are metal skeletons filled with teflon, silicone, inorganic rubber, and various ceramic compositions. (3) Non-fibrous composites. These consist of ceramic composites containing talc or glass. Studies are included of resilience, fiber orientation, friction and wear, static seals, reciprocating shaft seals, rotating shaft seals, and radiation effects.
Provenance: IIT
Author(s): Smith, L. L.
Corporate Author(s): Armour Research Foundation
Laboratory: Materials Central
Date of Publication: 1961-03
Pages: 77
Contract: AF 33(616)-5793
DoD Project: 8128
DoD Task: 73027
Identifier: AD0462222
Abstract:
The principal objective of this research program is to investigate and develop composite materials suitable for use as static and dynamic seals at temperatures ranging from cryogenic to 1200 F and pressures up to 5000 psi. Materials investigated may be grouped as follows: (1) Fibrous composites with pure metal impregnants. An example is stainless steel fiber skeletons impregnated with silver and/or indium with which promising results have been obtained at temperatures of 1000 F for reciprocating shaft seals and -424 F for static seals. (2) Fibrous composites with other impregnants. Included are metal skeletons filled with teflon, silicone, inorganic rubber, and various ceramic compositions. (3) Non-fibrous composites. These consist of ceramic composites containing talc or glass. Studies are included of resilience, fiber orientation, friction and wear, static seals, reciprocating shaft seals, rotating shaft seals, and radiation effects.
Provenance: IIT