Self-sharpening behavior during ballistic impact of the tungsten heavy alloy rod penetrators processed by hot-hydrostatic extrusion and hot torsion

Zhou Xiaoqing; Li Shukui; Liu Jinxu; Wang Yingchun; Wang Xing

doi:10.1016/j.msea.2010.04.050

Self-sharpening behavior during ballistic impact of the tungsten heavy alloy rod penetrators processed by hot-hydrostatic extrusion and hot torsion

Zhou Xiaoqing, Li Shukui, Liu Jinxu^*, Wang Yingchun, Wang Xing

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

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

52 Citations (Scopus)

Abstract

Tungsten heavy alloy (WHA) rod penetrators processed by hot-hydrostatic extrusion and hot torsion (HE + HT) are subjected to ballistic impact, and the as-sintered and the as-extruded WHA rod penetrators are tested for comparison. The HE + HT WHA penetrators display the best penetration performance with the critical minimum penetration velocity decreasing more than 9% and 5% compared with the as-sintered and the as-extruded WHA penetrators, respectively. The remnants of the as-sintered and the as-extruded WHA penetrators exhibit obvious mushroom-like heads, but the remnants of HE + HT WHA penetrators maintain an acuate shape, indicating a good self-sharpening ability. Microstructure analysis shows that, adiabatic shear bands (ASBs) form at edges of the HE + HT WHA penetrator heads during the penetration process, and deformed parts of the penetrators fall off along the ASBs, which are responsible for the good self-sharpening ability and evidently improved penetration performance.

Original language	English
Pages (from-to)	4881-4886
Number of pages	6
Journal	Materials Science and Engineering: A
Volume	527
Issue number	18-19
DOIs	https://doi.org/10.1016/j.msea.2010.04.050
Publication status	Published - Jul 2010

Keywords

Adiabatic shear bands
Ballistic impact
Microstructures
Self-sharpening
Tungsten heavy alloy

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Xiaoqing, Z., Shukui, L., Jinxu, L., Yingchun, W., & Xing, W. (2010). Self-sharpening behavior during ballistic impact of the tungsten heavy alloy rod penetrators processed by hot-hydrostatic extrusion and hot torsion. Materials Science and Engineering: A, 527(18-19), 4881-4886. https://doi.org/10.1016/j.msea.2010.04.050

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title = "Self-sharpening behavior during ballistic impact of the tungsten heavy alloy rod penetrators processed by hot-hydrostatic extrusion and hot torsion",

abstract = "Tungsten heavy alloy (WHA) rod penetrators processed by hot-hydrostatic extrusion and hot torsion (HE + HT) are subjected to ballistic impact, and the as-sintered and the as-extruded WHA rod penetrators are tested for comparison. The HE + HT WHA penetrators display the best penetration performance with the critical minimum penetration velocity decreasing more than 9% and 5% compared with the as-sintered and the as-extruded WHA penetrators, respectively. The remnants of the as-sintered and the as-extruded WHA penetrators exhibit obvious mushroom-like heads, but the remnants of HE + HT WHA penetrators maintain an acuate shape, indicating a good self-sharpening ability. Microstructure analysis shows that, adiabatic shear bands (ASBs) form at edges of the HE + HT WHA penetrator heads during the penetration process, and deformed parts of the penetrators fall off along the ASBs, which are responsible for the good self-sharpening ability and evidently improved penetration performance.",

keywords = "Adiabatic shear bands, Ballistic impact, Microstructures, Self-sharpening, Tungsten heavy alloy",

author = "Zhou Xiaoqing and Li Shukui and Liu Jinxu and Wang Yingchun and Wang Xing",

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AU - Xiaoqing, Zhou

AU - Shukui, Li

AU - Jinxu, Liu

AU - Yingchun, Wang

AU - Xing, Wang

PY - 2010/7

Y1 - 2010/7

N2 - Tungsten heavy alloy (WHA) rod penetrators processed by hot-hydrostatic extrusion and hot torsion (HE + HT) are subjected to ballistic impact, and the as-sintered and the as-extruded WHA rod penetrators are tested for comparison. The HE + HT WHA penetrators display the best penetration performance with the critical minimum penetration velocity decreasing more than 9% and 5% compared with the as-sintered and the as-extruded WHA penetrators, respectively. The remnants of the as-sintered and the as-extruded WHA penetrators exhibit obvious mushroom-like heads, but the remnants of HE + HT WHA penetrators maintain an acuate shape, indicating a good self-sharpening ability. Microstructure analysis shows that, adiabatic shear bands (ASBs) form at edges of the HE + HT WHA penetrator heads during the penetration process, and deformed parts of the penetrators fall off along the ASBs, which are responsible for the good self-sharpening ability and evidently improved penetration performance.

AB - Tungsten heavy alloy (WHA) rod penetrators processed by hot-hydrostatic extrusion and hot torsion (HE + HT) are subjected to ballistic impact, and the as-sintered and the as-extruded WHA rod penetrators are tested for comparison. The HE + HT WHA penetrators display the best penetration performance with the critical minimum penetration velocity decreasing more than 9% and 5% compared with the as-sintered and the as-extruded WHA penetrators, respectively. The remnants of the as-sintered and the as-extruded WHA penetrators exhibit obvious mushroom-like heads, but the remnants of HE + HT WHA penetrators maintain an acuate shape, indicating a good self-sharpening ability. Microstructure analysis shows that, adiabatic shear bands (ASBs) form at edges of the HE + HT WHA penetrator heads during the penetration process, and deformed parts of the penetrators fall off along the ASBs, which are responsible for the good self-sharpening ability and evidently improved penetration performance.

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KW - Ballistic impact

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Self-sharpening behavior during ballistic impact of the tungsten heavy alloy rod penetrators processed by hot-hydrostatic extrusion and hot torsion

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