Low-temperature thermal conductivity of two fibre-epoxy composites

The thermal and mechanical properties of carbon, glass and Kevlar fibre reinforced epoxy composites are discussed, with particular reference to the behaviour of these materials at cryogenic temperatures. The effects of production techniques and various fibre arrangements are determined. Fibre-epoxy

The main purposes of the investigations reported here were to change the volume fraction, X, of filler in epoxy composites, to give the required value of thermal conductivity, X, and to predict X for a given set of values Xm, Xf, X, r, e and R.

The thermal conductivity of one type of glass-fibre/epoxy and three types of carbon-fibre/ epoxy composites has been measured from 2 to 80 K in directions parallel and perpendicular to the fibres for various volume concentrations of fibre, In the liquid helium region the conductivity of the carbon f

Thermal conductivity data are presented for several samples: Gd2 (SO4) 3 8H2 0 pressed powders with and without copper fibres, pressed powders of NaCI and KCI, cloth base phenolic sheet, epoxy resin-bonded glass fibre laminate, and AGO T graphite in the presance of helium gas. Measurements on all sa

This Paper is a review of the factors that determine the thermal conductivity of polymers below 100 K. Starting from the 'universal' behaviour found in all amorphous solids we shall examine how far this can be changed when we come to consider semicrystalline polymers, and the further changes that ca

Experimental results of dynamic-mechanical measurements and differential scanning calorimetry are compared for a pure diglycidyl-type epoxy/tetrafunctional aliphatic amine system and for a composite containing Kevlar ®bres as reinforcement. The presence of ®bres had marked effects on the curing reac