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Copper/alumina composites are extensively used in automotive and aerospace   industry for products that are subjected to severe thermal and mechanical   loadings, such as rocket thrusters and components of aircraft engines. These   materials are well-known for their good frictional wear resistance, good   resistance to thermal fatigue, high thermal conductivity and high specific   heat. In this paper, the sintering process of copper/electrocorundum   composites reinforced by electrocorundum particles with diameters of 3 or 180   μm and 1, 3, 5 vol.% content is presented. The effects of different particle   sizes of the ceramic reinforcement on the microstructure, physical,   mechanical, tribological and thermal properties of the fabricated composites   are discussed

The influence of electrocorundum granulation on the properties of sintered Cu/electrocorundum composites