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首页> 外文期刊>Proceedings of the Institution of Mechanical Engineers. Part L, Journal of Materials: Design and Application >A dislocation-based yield strength model for nano-indentation size effect
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A dislocation-based yield strength model for nano-indentation size effect

机译:基于位错的纳米缩进尺寸效应屈服强度模型

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摘要

This paper presents a dislocation-based yield strength model for the nano-indentation size effect. The model is based on functional expressions involving the densities of statistically stored dislocations and geometrically necessary dislocations. A single-phase austenitic stainless steel (316L) and a ferrite-austenite dual-phase steel (2205) are used here as the case-study materials to validate the proposed model. Experimental testing and finite element modelling of nano-indentation of the two materials are presented. Experimental tests are performed in the indentation load range from 1000   µ N to 10000   µ N . For 2205 steel, finite element modelling is performed using a dual-phase microstructure-based model. It is shown that, with consideration of statistically stored dislocations and geometrically necessary dislocations, finite element modelling results can reproduce measured load–displacement curves and hence, the size effect, within an error range of about 5%.
机译:本文提出了一种基于位错的屈服强度模型,用于纳米压痕尺寸效应。 该模型基于涉及统计上储存的脱位和几何必要脱位的密度的功能表达。 单相奥氏体不锈钢(316L)和铁素体 - 奥氏体双相钢(2205)在此作为验证拟议模型的案例研究材料。 提出了两种材料纳米压痕的实验测试和有限元建模。 在压痕负载范围内的实验测试从1000μN到10000μN执行。 对于2205钢,使用基于双相微结构的模型进行有限元建模。 结果表明,考虑到统计存储的脱位和几何必要的位错,有限元建模结果可以再现测量的负载 - 位移曲线,因此尺寸效应,在约5%的误差范围内。

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  • 作者

    Ping Tao; Fei Ye; Jianming Gong; Richard A Barrett; Seán B Leen;

  • 作者单位

    School of Mechanical and Power Engineering Nanjing Tech University|Jiangsu Key Lab of Design and Manufacture of Extreme Pressure Equipment|Mechanical Engineering School of Engineering College of Science and Engineering National University of Ireland Galway;

    School of Mechanical and Power Engineering Nanjing Tech University|Jiangsu Key Lab of Design and Manufacture of Extreme Pressure Equipment;

    School of Mechanical and Power Engineering Nanjing Tech University|Jiangsu Key Lab of Design and Manufacture of Extreme Pressure Equipment;

    Mechanical Engineering School of Engineering College of Science and Engineering National University of Ireland Galway|I-Form Advanced Manufacturing Research Centre;

    Mechanical Engineering School of Engineering College of Science and Engineering National University of Ireland Galway|I-Form Advanced Manufacturing Research Centre;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Nano-indentation; yield strength; dislocation; finite element model; indentation size effect;

    机译:纳米凹陷;屈服强度;错位;有限元模型;缩进尺寸效果;
  • 入库时间 2022-08-19 02:28:59

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