A method of measurement of the thermal performances of composite materials on the base of the porous aluminium oxide is described. The method takes into account the heat inhomogeneity, the material inhomogeneity and anisotropy as well as specimen’s surface radiation. Investigations of the thermophysics properties of the porous substrate fabricated with using of the electrochemical aluminium oxide technology vs. temperature and long staying in a climate chamber were fulfilled. The tests demonstrated that the climatic impact does not influence on the high thermophysics properties of the aluminium oxide material that have extremely high thermal conductivity ≤ 120 W/(m·K).
Comparative results of measurements of the thermal resistance of a new nanoporous material based on aluminium oxide are presented. Low-cost high-heat-conducting printed circuit boards for high-power LEDs, LED lighting devices and power electronics on the basis of the presented material have been developed and manufactured. Comparison of a set of performances of nanoporous aliminium oxide and aluminium nitride ceramics demonstrate advantages of the material developed. Its thermal characteristics is inferior to the AlN ceramics by 30%, but the cost of the proposed material is lower by almost four times.
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