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

Changchun Wang, Le-Le Song, Yupeng Xie

2020Materials26 citationsDOIOpen Access PDF

Abstract

Single-phase tungsten diboride (WB2) was synthesized at high pressure and high temperature. The different grain sizes ranging from 300 nm to 3 µm were successfully obtained in WB2 by controlling the experimental conditions. The effects of grain size on hardness and resistivity properties were investigated. The Vickers hardness of WB2 was modulated with grain size. The maximum asymptotic Vickers hardness is 25.5 GPa for WB2 with a grain size of 300 nm which is a 10% increase compared to WB2 with a grain size of 3 µm. The optimal electrical resistivity of WB2 was 10−7 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 WB2 should be a new functional hard material replacing WC which is widely used in industrial production.

Topics & Concepts

Grain sizeMaterials scienceGrain boundaryElectrical resistivity and conductivityTungstenVickers hardness testMetallurgyMicrostructurePhysicsQuantum mechanicsAdvanced materials and compositesBoron and Carbon Nanomaterials ResearchMetal and Thin Film Mechanics