Enhanced ductility of a W-30Cu composite by improving microstructure homogeneity

Zehui Hao; Jinxu Liu; Jin Cao; Shukui Li; Xingwei Liu; Chuan He; Xinying Xue

doi:10.3390/met9060646

Enhanced ductility of a W-30Cu composite by improving microstructure homogeneity

Zehui Hao, Jinxu Liu^*, Jin Cao, Shukui Li, Xingwei Liu, Chuan He, Xinying Xue

^*Corresponding author for this work

School of Material Science and Engineering

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

Due to its negligible solubility, it is difficult to obtain a W-30Cu composite with a homogenous microstructure. However, with a selected W skeleton, a homogeneous phase distribution was achieved for a W-30Cu composite in the present study. By detailed characterization of the mechanical performance and microstructure of the W-30Cu composite, as well as the stress distribution state under a loading condition, the effects of microstructure homogeneity on the mechanical properties and failure mechanisms are identified. The mechanisms by which the ductility and strength depend on microstructure homogeneity contain the effects on plastic deformation and stress coordination of the Cu phase network. The dominant factors for the high ductility and strength of W-30Cu composites are proposed.

Original language	English
Article number	646
Journal	Metals
Volume	9
Issue number	6
DOIs	https://doi.org/10.3390/met9060646
Publication status	Published - Jun 2019

Keywords

Ductility
Dynamic compression strength
Failure mechanism
Microstructure homogeneity
W-30Cu

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abstract = "Due to its negligible solubility, it is difficult to obtain a W-30Cu composite with a homogenous microstructure. However, with a selected W skeleton, a homogeneous phase distribution was achieved for a W-30Cu composite in the present study. By detailed characterization of the mechanical performance and microstructure of the W-30Cu composite, as well as the stress distribution state under a loading condition, the effects of microstructure homogeneity on the mechanical properties and failure mechanisms are identified. The mechanisms by which the ductility and strength depend on microstructure homogeneity contain the effects on plastic deformation and stress coordination of the Cu phase network. The dominant factors for the high ductility and strength of W-30Cu composites are proposed.",

keywords = "Ductility, Dynamic compression strength, Failure mechanism, Microstructure homogeneity, W-30Cu",

author = "Zehui Hao and Jinxu Liu and Jin Cao and Shukui Li and Xingwei Liu and Chuan He and Xinying Xue",

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T1 - Enhanced ductility of a W-30Cu composite by improving microstructure homogeneity

AU - Hao, Zehui

AU - Liu, Jinxu

AU - Cao, Jin

AU - Li, Shukui

AU - Liu, Xingwei

AU - He, Chuan

AU - Xue, Xinying

PY - 2019/6

Y1 - 2019/6

N2 - Due to its negligible solubility, it is difficult to obtain a W-30Cu composite with a homogenous microstructure. However, with a selected W skeleton, a homogeneous phase distribution was achieved for a W-30Cu composite in the present study. By detailed characterization of the mechanical performance and microstructure of the W-30Cu composite, as well as the stress distribution state under a loading condition, the effects of microstructure homogeneity on the mechanical properties and failure mechanisms are identified. The mechanisms by which the ductility and strength depend on microstructure homogeneity contain the effects on plastic deformation and stress coordination of the Cu phase network. The dominant factors for the high ductility and strength of W-30Cu composites are proposed.

AB - Due to its negligible solubility, it is difficult to obtain a W-30Cu composite with a homogenous microstructure. However, with a selected W skeleton, a homogeneous phase distribution was achieved for a W-30Cu composite in the present study. By detailed characterization of the mechanical performance and microstructure of the W-30Cu composite, as well as the stress distribution state under a loading condition, the effects of microstructure homogeneity on the mechanical properties and failure mechanisms are identified. The mechanisms by which the ductility and strength depend on microstructure homogeneity contain the effects on plastic deformation and stress coordination of the Cu phase network. The dominant factors for the high ductility and strength of W-30Cu composites are proposed.

KW - Ductility

KW - Dynamic compression strength

KW - Failure mechanism

KW - Microstructure homogeneity

KW - W-30Cu

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U2 - 10.3390/met9060646

DO - 10.3390/met9060646

M3 - Article

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SN - 2075-4701

VL - 9

JO - Metals

JF - Metals

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M1 - 646

ER -

Enhanced ductility of a W-30Cu composite by improving microstructure homogeneity

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Keywords

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