仪器化压入测试材料表面残余应力的研究进展
Research Progress on Surface Residual Stress Measurement Using Instrumented Indentation
摘 要
仪器化压入是一种新兴的力学测试技术, 具有无损、微区、自动等优点, 已用于残余应力测试的研究。首先介绍仪器化压入测试残余应力的基本原理; 然后针对锥形压入和球形压入测试, 分别介绍仪器化压入测试残余应力的主要分析方法, 并比较各自的优缺点, 提出改进措施; 最后总结仪器化压入测试残余应力的研究现状, 展望未来的研究工作。
仪器化压入
锥形压入
球形压入
residual stress measurement
instrumented indentation
sharp indentation
spherical indentation
Abstract
Instrumented indentation as a kind of non-destructive, local and automatic mechanical testing technology which developed in recent years, has been applied to residual stress measurement. Firstly, the principle of residual stress measurement using instrumented indentation is elaborated. Secondly, the current analytical methods using sharp indentation and spherical indentation are introduced, advantages and disadvantages of those methods are compared and some possible remedies are proposed. Finally, research status in this area is concluded and the research trends are discussed.
中图分类号 TB302.3 O348.3
所属栏目 综述
基金项目 国家自然科学基金资助项目(11025212,10872200)
收稿日期 2011/12/12
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备注逯智科(1985-), 男,博士研究生。
引用该论文: LU Zhi-ke,FENG Yi-hui,ZHANG Tai-hua. Research Progress on Surface Residual Stress Measurement Using Instrumented Indentation[J]. Physical Testing and Chemical Analysis part A:Physical Testing, 2012, 48(6): 370~373
逯智科,冯义辉,张泰华. 仪器化压入测试材料表面残余应力的研究进展[J]. 理化检验-物理分册, 2012, 48(6): 370~373
被引情况:
【1】叶菁, "一种测定液体表面张力系数的新方法",理化检验-物理分册 50, 886-889(2014)
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参考文献
【1】HAUK V. Structural and residual stress analysis by nondestructive methods[M]. New York:Elsevier,1997.
【2】LU J. Handbook of measurement of residual stresses[M]. Liburn:Fairmont Press,1996.
【3】MASUBUCHI K. Analysis of welded structures: residual stresses, distortion, and their consquences[M]. New York:Pergamon Press,1980.
【4】NOYAN I C, COHEN J B.Residual stress measurement by diffraction and interpretation[M]. New York:Spriger-Verlag,1987.
【5】DOERNER M F, NIX W D.A method for interpreting the data from depth-sensing indentation instruments[J]. Journal of Materials Research, 1986, 1(4):601-609.
【6】OLIVER W C, PHARR G M. An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments[J]. Journal of Materials Research, 1992, 7(6):1564-1583.
【7】JIANG Peng, ZHANG Tai-hua, FENG Yi-hui,et al. Determination of plastic properties by instrumented spherical indentation:Expanding cavity model and si-milarity solution approach[J]. Journal of Materials Research,2009, 24(3):1045-1053.
【8】ZHANG Tai-hua, JIANG Peng, FENG Yi-hui,et al.Numerical verification for instrumented spherical indentation techniques in determining the plastic properties of materials[J]. Journal of Materials Research,2009,24(12):3653-3663.
【9】JIANG Peng, ZHANG Tai-hua, YANG Rong.Experimental verification for an instrumented spherical indentation technique in determining mechanical properties of metallic materials[J]. Journal of Materials Research,2011,26(11):1414-1420.
【10】FENG Yi-hui, ZHANG Tai-hua, YANG Rong. A work approach to determine Vickers indentation fractur toughness[J]. Journal of the American Ceramic Society,2011,94(2):332-335.
【11】ZHANG Tai-hua, FENG Yi-hui, YANG Rong,et al.A method to determine fracture toughness using cube-corner indentation[J]. Scripta Materialia, 2010,2:199-201.
【12】TSUI T Y, OILVER W C, PHARR G M.Influences of stress on the measurement of mechanical properties using nanoindentation:Part I. Experimental studies in an aluminum alloy[J]. Journal of Materials Research,1996,11(3):752-759.
【13】BOLSHAKOV A, OILVER W C, PHARR G M. Influences of stress on the measurement of mechanical properties using nanoindentation:Part II. Finite element simulations[J]. Journal of Materials Research,1996,11(3):760-768.
【14】GIANNAKOPOULOS A E.The influence of initial elastic surface stresses on instrumented sharp indentation[J]. Journal of Applied Mechanics,2003,70:638-643.
【15】LEE Y H,KWON D.Estimation of biaxial surface stress by instrumented indentation with sharp inden-ters[J]. Acta Materialia,2004,52:1555-1563.
【16】SURESH S,GIANNAKOPOULOS A E.A new method for estimating residual stresses by instru-mented sharp indentation[J]. Acta mater,1998,46(16):5755-5767.
【17】LEE Y H, KWON D.Measurement of residual-stress effect by nanoindentation on elastically strained (100) W[J]. Scripta Materialia,2003,49:459-465.
【18】CHEN Xi,YAN Jin, KARLSSON A M.On the determination of residual stress and mechanical properties by indentation[J]. Materials Science and Engineering A,2006,416:139-149.
【19】TALJAT B, PHARR G M.Measurement of residual stress by load and depth sensing spherical indentation[J]. Materials Research Society Symposium Proceedings,2000,594:519-524.
【20】SWADENER J G, TAIJAT B, PHARR G M. Mea-surement of residual stress by load and depth sensing indentation with spherical indenters[J]. Journal of Materials Research,2001,16(7):2091-2102.
【21】OILVAS E R,SWADWNER J G, SHEN Y L. Nanoindentation measurement of surface residual stresses in particle-reinforced metal matrix composites[J]. Scripta Materialia,2006,54:263-268.
【22】LEPIENSKI C M, PHARR G M, PARK Y J,et al.Factors limiting the measurement of residual stresses in thin films by nanoindentation[J]. Thin Solid Films,2004,447-448:251-257.
【2】LU J. Handbook of measurement of residual stresses[M]. Liburn:Fairmont Press,1996.
【3】MASUBUCHI K. Analysis of welded structures: residual stresses, distortion, and their consquences[M]. New York:Pergamon Press,1980.
【4】NOYAN I C, COHEN J B.Residual stress measurement by diffraction and interpretation[M]. New York:Spriger-Verlag,1987.
【5】DOERNER M F, NIX W D.A method for interpreting the data from depth-sensing indentation instruments[J]. Journal of Materials Research, 1986, 1(4):601-609.
【6】OLIVER W C, PHARR G M. An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments[J]. Journal of Materials Research, 1992, 7(6):1564-1583.
【7】JIANG Peng, ZHANG Tai-hua, FENG Yi-hui,et al. Determination of plastic properties by instrumented spherical indentation:Expanding cavity model and si-milarity solution approach[J]. Journal of Materials Research,2009, 24(3):1045-1053.
【8】ZHANG Tai-hua, JIANG Peng, FENG Yi-hui,et al.Numerical verification for instrumented spherical indentation techniques in determining the plastic properties of materials[J]. Journal of Materials Research,2009,24(12):3653-3663.
【9】JIANG Peng, ZHANG Tai-hua, YANG Rong.Experimental verification for an instrumented spherical indentation technique in determining mechanical properties of metallic materials[J]. Journal of Materials Research,2011,26(11):1414-1420.
【10】FENG Yi-hui, ZHANG Tai-hua, YANG Rong. A work approach to determine Vickers indentation fractur toughness[J]. Journal of the American Ceramic Society,2011,94(2):332-335.
【11】ZHANG Tai-hua, FENG Yi-hui, YANG Rong,et al.A method to determine fracture toughness using cube-corner indentation[J]. Scripta Materialia, 2010,2:199-201.
【12】TSUI T Y, OILVER W C, PHARR G M.Influences of stress on the measurement of mechanical properties using nanoindentation:Part I. Experimental studies in an aluminum alloy[J]. Journal of Materials Research,1996,11(3):752-759.
【13】BOLSHAKOV A, OILVER W C, PHARR G M. Influences of stress on the measurement of mechanical properties using nanoindentation:Part II. Finite element simulations[J]. Journal of Materials Research,1996,11(3):760-768.
【14】GIANNAKOPOULOS A E.The influence of initial elastic surface stresses on instrumented sharp indentation[J]. Journal of Applied Mechanics,2003,70:638-643.
【15】LEE Y H,KWON D.Estimation of biaxial surface stress by instrumented indentation with sharp inden-ters[J]. Acta Materialia,2004,52:1555-1563.
【16】SURESH S,GIANNAKOPOULOS A E.A new method for estimating residual stresses by instru-mented sharp indentation[J]. Acta mater,1998,46(16):5755-5767.
【17】LEE Y H, KWON D.Measurement of residual-stress effect by nanoindentation on elastically strained (100) W[J]. Scripta Materialia,2003,49:459-465.
【18】CHEN Xi,YAN Jin, KARLSSON A M.On the determination of residual stress and mechanical properties by indentation[J]. Materials Science and Engineering A,2006,416:139-149.
【19】TALJAT B, PHARR G M.Measurement of residual stress by load and depth sensing spherical indentation[J]. Materials Research Society Symposium Proceedings,2000,594:519-524.
【20】SWADENER J G, TAIJAT B, PHARR G M. Mea-surement of residual stress by load and depth sensing indentation with spherical indenters[J]. Journal of Materials Research,2001,16(7):2091-2102.
【21】OILVAS E R,SWADWNER J G, SHEN Y L. Nanoindentation measurement of surface residual stresses in particle-reinforced metal matrix composites[J]. Scripta Materialia,2006,54:263-268.
【22】LEPIENSKI C M, PHARR G M, PARK Y J,et al.Factors limiting the measurement of residual stresses in thin films by nanoindentation[J]. Thin Solid Films,2004,447-448:251-257.
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