Dynamic compressive behaviour by electron beam melting under of Ti-6Al-4V alloy processed high strain rate loading

This paper documents an investigation into the compressive deformation behaviour of electron beam melting （EBM） processing titanium alloy （Ti-6A1-4V） parts under high strain loading conditions. The dynamic compression tests were carried out at a high strain rate of over 1 × 10^3/S using the split Ho...

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Veröffentlicht in:	先进制造进展：英文版 2015 (3), p.232-243
1. Verfasser:	A. Mohammadhosseini S. H. Masood D. Fraser M. Jahedi
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Sprache:	eng
Schlagworte:	Ti-6Al-4V钛合金分离式霍普金森压杆动态压缩性能动态压缩试验材料测试系统熔化电子束熔炼高应变率
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creator	A. Mohammadhosseini S. H. Masood D. Fraser M. Jahedi
description	This paper documents an investigation into the compressive deformation behaviour of electron beam melting （EBM） processing titanium alloy （Ti-6A1-4V） parts under high strain loading conditions. The dynamic compression tests were carried out at a high strain rate of over 1 × 10^3/S using the split Hopkinson pressure bar （SHPB） test system and for comparison the quasi-static tests were performed at a low strain rate of 1×10^-3/s using a numerically controlled hydraulic materials test system （MTS） testing machine at an ambient temperature. Furthermore, microstructure analysis was carried out to study the failure mechanisms on the deformed samples. The Vickers micro-hardness values of the samples were measured before and after the compression tests. The microstructures of the compressed samples were also characterized using optical microscopy. The particle size distribution and chemical composition of powder material, which might affect the mechanical properties of the specimens, were investigated. In addition, the numerical simulation using commercial explicit finite element software was employed to verify the experimental results from SHPB test system.
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H. Masood D. Fraser M. Jahedi</creatorcontrib><description>This paper documents an investigation into the compressive deformation behaviour of electron beam melting （EBM） processing titanium alloy （Ti-6A1-4V） parts under high strain loading conditions. The dynamic compression tests were carried out at a high strain rate of over 1 × 10^3/S using the split Hopkinson pressure bar （SHPB） test system and for comparison the quasi-static tests were performed at a low strain rate of 1×10^-3/s using a numerically controlled hydraulic materials test system （MTS） testing machine at an ambient temperature. Furthermore, microstructure analysis was carried out to study the failure mechanisms on the deformed samples. The Vickers micro-hardness values of the samples were measured before and after the compression tests. The microstructures of the compressed samples were also characterized using optical microscopy. 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Jahedi</creatorcontrib><title>Dynamic compressive behaviour by electron beam melting under of Ti-6Al-4V alloy processed high strain rate loading</title><title>先进制造进展：英文版</title><addtitle>Advances in Manrfacturing</addtitle><description>This paper documents an investigation into the compressive deformation behaviour of electron beam melting （EBM） processing titanium alloy （Ti-6A1-4V） parts under high strain loading conditions. The dynamic compression tests were carried out at a high strain rate of over 1 × 10^3/S using the split Hopkinson pressure bar （SHPB） test system and for comparison the quasi-static tests were performed at a low strain rate of 1×10^-3/s using a numerically controlled hydraulic materials test system （MTS） testing machine at an ambient temperature. Furthermore, microstructure analysis was carried out to study the failure mechanisms on the deformed samples. The Vickers micro-hardness values of the samples were measured before and after the compression tests. The microstructures of the compressed samples were also characterized using optical microscopy. The particle size distribution and chemical composition of powder material, which might affect the mechanical properties of the specimens, were investigated. In addition, the numerical simulation using commercial explicit finite element software was employed to verify the experimental results from SHPB test system.</description><subject>Ti-6Al-4V钛合金</subject><subject>分离式霍普金森压杆</subject><subject>动态压缩性能</subject><subject>动态压缩试验</subject><subject>材料测试系统</subject><subject>熔化</subject><subject>电子束熔炼</subject><subject>高应变率</subject><issn>2095-3127</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNqNjEsKwkAQRGehoGju0LgPaMaMuhQ_eIDgNnQmnWRgPrEThdzeWXgAVwWvXtVMLLPtKU_lLjssRDIMptpmSuanw04tBV8nj85o0MH1TLH9EFTU4ceEN0M1AVnSIwcfKTpwZEfjW3j7mhhCA4VJ1dmm-yegtWGCnoOON1RDZ9oOhpHReGAcCWzAOm7XYt6gHSj55Ups7rfi8kh1F3z7ikbZs3HIU6mUynN5lJn8S_oC-qZKwA</recordid><startdate>2015</startdate><enddate>2015</enddate><creator>A. Mohammadhosseini S. H. Masood D. Fraser M. 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Furthermore, microstructure analysis was carried out to study the failure mechanisms on the deformed samples. The Vickers micro-hardness values of the samples were measured before and after the compression tests. The microstructures of the compressed samples were also characterized using optical microscopy. The particle size distribution and chemical composition of powder material, which might affect the mechanical properties of the specimens, were investigated. In addition, the numerical simulation using commercial explicit finite element software was employed to verify the experimental results from SHPB test system.</abstract></addata></record>
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subjects	Ti-6Al-4V钛合金分离式霍普金森压杆动态压缩性能动态压缩试验材料测试系统熔化电子束熔炼高应变率
title	Dynamic compressive behaviour by electron beam melting under of Ti-6Al-4V alloy processed high strain rate loading
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