Abstract
Three-layered W-Cu (W-10Cu/W-20Cu/W-30Cu, weight percentage) functionally graded materials were fabricated by laminate pressing of Cu-coated W composite powders with different Cu contents (10-30 wt.% Cu) and W particle sizes in the powders and microwave sintering of the powder compacts. The microstructure and the physical and mechanical properties of the graded materials were investigated. The experimental results show that the relative density of the graded W-Cu samples sintered at 1250 °C for 20 min is above 97%. Cu has a gradient layer distribution in the thickness direction, and there is good combination between the layers in the graded samples. Furthermore, the graded W-Cu materials exhibit good physical and mechanical properties. The sintered samples have thermal conductivities above 210 W m K−1, and the maximum bending strength and hardness reach 1004 MPa and 346 HV, respectively. The present results show that functionally graded W-Cu materials with high density, gradient Cu and W distribution, and good properties can be successfully prepared by laminate pressing and microwave sintering.
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