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Mechanical and Electrical Characteristics of WB2 Synthesized at High Pressure and High Temperature

机译：高压高温合成WB2的机械和电气特性

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摘要

Single-phase tungsten diboride (WB ) was synthesized at high pressure and high temperature. The different grain sizes ranging from 300 nm to 3 µm were successfully obtained in WB by controlling the experimental conditions. The effects of grain size on hardness and resistivity properties were investigated. The Vickers hardness of WB was modulated with grain size. The maximum asymptotic Vickers hardness is 25.5 GPa for WB with a grain size of 300 nm which is a 10% increase compared to WB with a grain size of 3 µm. The optimal electrical resistivity of WB was 10 Ωm with the biggest grain size of 3 µm, which is ascribed to low grain boundary density. The superior properties of hardness and electrical resistivity demonstrate that WB should be a new functional hard material replacing WC which is widely used in industrial production.

机译：在高压和高温下合成了单相二硼化钨（WB）。通过控制实验条件，在WB中成功获得了300 nm至3 µm的不同晶粒尺寸。研究了晶粒尺寸对硬度和电阻率特性的影响。 WB的维氏硬度是通过晶粒尺寸调节的。粒度为300 nm的WB的最大渐近维氏硬度为25.5 GPa，与粒度为3 µm的WB相比，增加了10％。 WB的最佳电阻率为10Ωm，最大晶粒尺寸为3 µm，这归因于较低的晶界密度。硬度和电阻率的优异性能表明，WB应该是一种新的功能性硬质材料，可以替代WC，而WC在工业生产中已广泛使用。

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期刊名称 Materials
作者
Changchun Wang; Lele Song; Yupeng Xie;
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作者单位

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年(卷),期 2020(13),5
年度 2020
页码 -1
总页数 7
原文格式 PDF
正文语种
中图分类外科学;
关键词
hard material; electrical resistivity; tungsten diboride; Vickers hardness;

机译：硬质材料;电阻率;二硼化钨;维氏硬度;

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7. Mechanical and Electrical Characteristics of WB2 Synthesized at High Pressure and High Temperature [O] . Changchun Wang, Lele Song, Yupeng Xie 2020

机译：高压和高温合成WB2的机械和电气特性

Mechanical and Electrical Characteristics of WB2 Synthesized at High Pressure and High Temperature

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