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Mechanical Properties of Cu-W Interpenetrating-Phase Composites with Different W-Skeleton

Ying Han, Sida Li, Sida Li, Yundong Cao, Shujun Li, Shujun Li, Guangyu Yang, Bo Yu, Zhaowei Song, Jian Wang

2022Metals26 citationsDOIOpen Access PDF

Abstract

In this work, copper–tungsten (Cu-W) composites with a cubic and rhombic dodecahedron W-skeleton were fabricated by the infiltration of Cu melt into a three-dimensionally printed W scaffold. The effects of the skeleton structure on the mechanical properties and energy-absorbing characteristics of the Cu-W interpenetrating-phase composite were investigated and compared with those of commercial Cu-W composite fabricated by powder metallurgy. The results indicated that the mechanical properties of the studied Cu-W interpenetrating-phase composites were mainly related to the properties of their ordered skeletons. Compared to the dodecahedron W-skeleton Cu-W composites, cubic-W-skeleton Cu-W composites exhibited higher strengths but lower absorbed energy. The Cu-W composites with ordered W-skeletons displayed much higher energy absorption than the commercial Cu-W ones. By adjusting the ordered W-skeleton structure contained in the composite, the strength and deformation behavior of the Cu-W composite can be effectively improved, which provides a guide to optimizing the mechanical properties and energy absorption of Cu-W composites.

Topics & Concepts

Materials scienceComposite materialDodecahedronComposite numberCopperPowder metallurgyPhase (matter)TungstenMicrostructureMetallurgyCrystallographyChemistryOrganic chemistryAluminum Alloys Composites PropertiesAdvanced materials and compositesMicrostructure and mechanical properties
Mechanical Properties of Cu-W Interpenetrating-Phase Composites with Different W-Skeleton | Litcius