Cryogenic fibers

Argon - cryogenic fiber short solid one exper. liquefied gas 4.4.6... 

R. Aliaga-Rossel and J. Bayley, A cryogenic fiber maker for continuous extmsion. Rev. Sci. Instrum., 69 [6], 2365-2368(1998). 

The principal uses of PCTFE plastics remain in the areas of aeronautical and space, electrical/electronics, cryogenic, chemical, and medical instmmentation industries. AppHcations include chemically resistant electrical insulation and components cryogenic seals, gaskets, valve seats (56,57) and liners instmment parts for medical and chemical equipment (58), and medical packaging fiber optic appHcations (see Fiber optics) seals for the petrochemical /oil industry and electrodes, sample containers, and column packing in analytical chemistry and equipment (59). 

Polyurethane, PVC, and extruded polystyrene provide the bulk of the cellular plastics used for low and cryogenic temperature appHcations. In some cases, eg, the insulation of Hquid hydrogen tanks on space systems, foams have been reinforced with continuous glass fibers throughout the matrix. This improves strength without affecting thermal performance significantly. 

Fiber reinforced plastics (FRP) are widely utilized now for a number of cryogenic applications. The matrices used are generally thermosetting resins such as epoxies, polyesters and phenolics, since they are easy to apply in impregnating processes. 

Fig. 1-7 Apparent thermal conductivities of typical cryogenic insulation material (a) multilayer insulations (b) opacified powders (c) glass fibers (cf) powders (e) foams, powders, and fibers, according to Ref. 1. [1 Btu in/h ft2 ° F = 144 mW/m °C]...

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