Comparative analysis of thermophysical properties of functional composites reinforced with epoxy-glass and epoxy-carbon fibers in the context of heat transfer anisotropy

The paper concerns comprehensive, complementary studies of thermophysical properties of functional composite structures. The term functional in this case means the study of the structure while maintaining its post-production imperfections, as opposed to the study of material samples prepared solely for this purpose. The paper presents the results of experimental studies, followed by an analysis of thermophysical properties characterizing heat accumulation and anisotropic heat transfer of two types of utility composites. A composite with an epoxy matrix and two types of fillers: glass mat and carbon fabric were studied. The research program included micro- and macrostructural analysis and comprehensive thermogravimetric, microcalorimetric and thermal diffusivity measurements. In the studies of heat transfer phenomena, the directional dependence of properties was taken into account. Attention was focused on maintaining high temperature resolution of measurements, and the effect of repeated temperature exposure was also determined also. The results of the research are the determined quantitative and qualitative characteristics, including the temperature dependence of a set of thermophysical properties of the tested materials. Analysis of the results provides insight into possible design and operational problems of real structures in relation to model data.