玻璃微粒改性钨的热软化

P. Leduc, G. Bao
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引用次数: 0

摘要

对含玻璃颗粒的钨基复合材料的速率相关热软化行为进行了微观力学研究。在复合材料的绝热压缩下,弹性玻璃状颗粒在较高应变下热软化,增强了钨基复合材料的热软化,从而降低了应变速率敏感性,促进了剪切局部化。为了指导颗粒改性钨基复合材料的显微组织设计,系统地预测了复合材料在整体绝热压缩下的应力-应变行为,包括不同的温度依赖行为、颗粒尺寸、体积分数和施加应变速率。结果表明,复合材料热软化的开始和速率与外加应变速率密切相关。由于玻璃状颗粒的热软化,复合材料的应变率敏感性降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal Softening of Glassy Particle Modified Tungsten
A micromechanics study is made of the rate-dependent thermal softening behavior of a tungsten matrix composite containing glassy particles. Under adiabatic compression of the composite, the elastic glassy particles thermally soften at relatively high strains, enhancing the thermal softening of the tungsten-based composite, thus reducing the strain rate sensitivity and fostering shear localization. To guide the microstructural design of the particle-modified tungsten-based composite in penetration applications, systematic predictions are made for the stress-strain behavior of the composite under overall adiabatic compression with different temperature-dependent behaviors, sizes, volume fractions of the particle and applied strain rates. It is found that both the onset and the rate of thermal softening of the composite depend critically on the applied strain rate. Owing to thermal softening of the glassy particles, the strain-rate sensitivity of the composite is reduced.
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