纳米W-Cu合金热压收缩动力学曲线特征

Shrinkage Kinetics of Nanoscaled W-Cu Alloy during Hotpressing Sintering

  • 摘要: 采用纳米W-Cu合金粉进行热压烧结,研究热压压力、热压气氛、钨粉粒度对热压烧结收缩动力学曲线的影响,观察和测定合金中钨晶粒的长大,测定部分力学性能,实验结果表明,采用纳米W-Cu合金粉在H_2中热压烧结的方法可以在较高压力、很低的烧结温度下制成钨晶粒的超细晶粒W-Cu合金,其相对密度可达98.8%,高温500℃的力学性能远远超过常规W-Cu合金。

     

    Abstract: The effect of pressure, gas atmosphere and W particle size on the shrinkage kinetic curve of nano-scaled W-Cu composite powders during hot pressing were studied. The growing of W grains in W-Cu alloys was analyzed. Some mechanical properties were measured. The results show that, using composite nano-powders of W-Cu, the nano-scaled W-Cu alloy in which W particle size is not more than 0.5μm can be obtained through hot pressing in H2 atmosphere and under a high pressure of 75 MPa at low sintering temperatures of 970-1200℃. The relative density of the ultrafine grained alloy can reach 98.8%. The mechanical properties at 500℃ greatly exceed those of the conventional W-Cu alloy.

     

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