Fenmo yejin jishu (Oct 2021)

Densification behavior and performance of La2O3-doped W nanopowders

  • CHEN Zheng,
  • YANG Jun-jun,
  • ZHANG Lin,
  • QU Xuan-hui,
  • QIN Ming-li

DOI
https://doi.org/10.19591/j.cnki.cn11-1974/tf.2021030005
Journal volume & issue
Vol. 39, no. 5
pp. 387 – 393

Abstract

Read online

The La2O3-doped W nanopowders were prepared by the solution combustion synthesis method. The densification behavior of the La2O3-doped W nanopowders and the effect of La2O3 on the densification of the W nanopowders were analysed. Meanwhile, the microstructure, thermal conductivity, and microhardness of the sintered alloys were also studied. The results show that, La2O3 can significantly inhibit the densification rate of W nanopowders. The relative density of the pure W powders sintered at 1350 ℃ can reach 96.2%, while that of the La2O3-doped W nanopowders sintered at 1500 ℃ is only 95.0%. The grain size of the La2O3-doped W alloys sintered at 1500 ℃ is 0.57 μm, which is one order of magnitude smaller than that of the pure W alloys. Therefore, the thermal conductivity of the La2O3-doped W alloys is lower than that of the pure W alloys, but the microhardness is significantly improved.

Keywords