Papers by Keyword: CuWCr Composite

Abstract: The Cu20W70Cr10 composites were fabricated by two methods which are the conventional powder metallurgy, and mechanical alloying to prepare WCr compound powders, followed by sintering and infiltration. The erosion behavior of CuWCr composites under breakdown was investigated. The surfaces of the composites before and after erosion and the mechanism of arc erosion were studied by scanning electron microscopy. The results show that the CuWCr composites prepared by mechanical alloying have superfine microstructure, uniform composition and high density, thus result in good characteristics of diffusing arcs and arc eroding endurance. Arc erosion zones are dispersive and uniform on the surfaces with some flat eroding pits. The Cu20W70Cr10 composites have excellent electrical properties such as high breakdown voltage, low chopping current and long arc life.

Abstract: A series of CuW60Cr15 composites with different Cr particle size ranging from 43μm to147μm in diameter have been prepared by infiltration. The results show that the size of Cr particles plays an important role on the microstructures and the properties of the CuW60Cr15 composite. Fine Cr particle changes not only the size of the isolated CrCu alloy zone but also the structure of the skeletons of the composite obviously. Fine Cr particles increase not only the maximum and the minimum but also the mean value of breakdown voltage. Although the maximum value of chopping currents remains almost constant while Cr particles become finer, the minimum and the mean values of chopping current discernible decrease in the CuW60Cr15 composites. It can be seen from the SEM photos of the composites after arcing that the size and its location of the arc spot determines the chopping current value of the composites.