Refining efficiency and capability of top-down synthesis of nanocrystalline materials

Yuwei Xun; Farghalli A. Mohamed

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Refining efficiency and capability of top-down synthesis of nanocrystalline materials

机译：纳米晶材料自顶向下合成的提纯效率和能力

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摘要

Severe plastic deformation (SPD) has been employed in recent years as a top-down method for the synthesis of nanocrystalline materials. In this paper, data reported for various severe plastic deformation processes, including high pressure torsion (HPT), equal channel angular pressing(ECAP), ball milling (BM), and accumulative roll bonding (ARB), are analyzed in terms of: (a) the minimum grain size obtainable by SPD processing, (b) the capability and feasibility of individual processing techniques, and (c) refining efficiency in terms of grain size decrease as a function of induced strain.

机译：近年来，严重的塑性变形（SPD）已被用作自上而下的合成纳米晶体材料的方法。本文针对以下各种严重塑性变形过程报告的数据进行了以下分析：（）高压扭转（HPT），等通道角挤压（ECAP），球磨（BM）和累积辊压粘结（ARB） a）通过SPD加工可获得的最小晶粒尺寸；（b）单个加工技术的能力和可行性；以及（c）晶粒尺寸减小引起的精炼效率随诱导应变而变。

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来源
《Materials Science and Engineering》 |2011年第17期|p.5446-5452|共7页
作者
Yuwei Xun; Farghalli A. Mohamed;
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作者单位

Department of Chemical Engineering and Materials Science, University of California, Irvine, CA 92697, USA;

Department of Chemical Engineering and Materials Science, University of California, Irvine, CA 92697, USA;

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原文格式 PDF
正文语种 eng
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关键词
accumulative roll bonding; ball milling; equal channel angular pressing; high pressure torsion; minimum grain size; nanocrystalline materials;

机译：累积辊压粘结;球磨;等径角挤压;高压扭力;最小晶粒度;纳米晶体材料;

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Refining efficiency and capability of top-down synthesis of nanocrystalline materials

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