纳米压痕表征技术的应用与发展
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摘要
纳米压痕技术作为一种新的无损检测、简单方便的材料微纳米尺度力学性能表征方法,被广泛应用于科学研究与现役构件寿命评估等领域。综述了纳米压痕法在性能表征中的各项应用,介绍了目前研究的重点。对纳米压痕技术的研究方向进行了展望。
The nanoindentation technology was taken as a new non-destructive and convenient material micronanometer scale mechanical properties characterization methods, which was widely used in the field of scientific research and life evaluation of active components. The applications of nanoindentation method in characterizing the properties of the materials were reviewed, followed by introducing the focus of the current studies. The research direction of the nanoindentation technology was prospected.
The nanoindentation technology was taken as a new non-destructive and convenient material micronanometer scale mechanical properties characterization methods, which was widely used in the field of scientific research and life evaluation of active components. The applications of nanoindentation method in characterizing the properties of the materials were reviewed, followed by introducing the focus of the current studies. The research direction of the nanoindentation technology was prospected.
引文
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[26]Gutierrez I.Correlation between nanoindentation and tensile properties:Influence of the indentation size effect[J].Materials Science&Engineering A,2003,361(1/2):377-384.
[27]Choi K S,Liu W N,Sun X,et al.Advanced micromechanical model for transformation-induced plasticity steels with application of in-situ,high-energy X-ray diffraction method[J].Metallurgical&Materials Transactions A,2008,39(13):3089-3096.
[2]王海舟,汪洪,丁洪,等.材料的高通量制备与表征技术[J].科技导报,2015,33(10):31-49.
[3]赵继成.材料基因组计划简介[J].自然杂志,2014,36(2):89-104.
[4]Nix W D,Gao H.Indentation size effects in crystalline materials:a law for strain gradient plasticity[J].Journal of the Mechanics&Physics of Solids,1998,46(3):411-425.
[5]Oliver W C,Pharr G M.Measurement of hardness and elastic modulus by instrumented indentation:Advances in understanding and refinements to methodology[J].Journal of Materials Research,2004,19(1):3-20.
[6]Xue F M,Li F G,Li J,et al.Strain energy density method for estimating fracture toughness from indentation test of0Cr12Mn5Ni4Mo3Al steel with Berkovich indenter[J].Theoretical&Applied Fracture Mechanics,2012,61(1):66-72.
[7]Gouldstone A,Chollacoop N,Ming D,et al.Indentation across size scales and disciplines:Recent developments in experimentation and modeling[J].Acta Materialia,2007,55(12):4015-4039.
[8]Berla L A,Allen A M,Han S M,et al.A physically based model for indenter tip shape calibration for nanoindentation[J].Journal of Materials Research,2010,25(4):735-745.
[9]Chicot D,N'Jock M Y,Puchi-Cabrera E S,et al.A contact area function for Berkovich nanoindentation:application to hardness determination of a Ti Hf CN thin film[J].Thin Solid Films,2014,558(17):259-266.
[10]Cao T S,Bobadilla C,Montmitonnet P,et al.A comparative study of three ductile damage approaches for fracture prediction in cold forming processes[J].Journal of Materials Processing Tech,2015,216:385-404.
[11]Li J,Li F,Ma X,et al.A strain-dependent ductile damage model and its application in the derivation of fracture toughness by micro-indentation[J].Materials&Design,2015,67:623-630.
[12]Amiri S,Lecis N,Manes A,et al.A study of a micro-indentation technique for estimating the fracture toughness of Al6061-T6[J].Mechanics Research Communications,2014,58:10-16.
[13]李晨,楼瑞祥,王志刚,等.残余应力测试方法的研究进展[J].材料导报,2014(2):153-158.
[14]Mao W G,Wan J,Dai C Y,et al.Evaluation of microhardness,fracture toughness and residual stress in a thermal barrier coating system:A modified Vickers indentation technique[J].Surface&Coatings Technology,2012,206(21):4455-4461.
[15]Dean J,Aldrich-Smith G,Clyne T W.Use of nanoindentation to measure residual stresses in surface layers[J].Acta Materialia,2011,59(7):2749-2761.
[16]Bolshakov A,Oliver W C,Pharr G M.Influences of stress on the measurement of mechanical properties using nanoindenta tion:Part II.Finite element simulations[J].Journal of Materi als Research,1996,11(3):760-768.
[17]Suresh S,Giannakopoulos A E.A new method for estimating residual stresses by instrumented sharp indentation[J].Acta Materialia,1998,46(16):5755-5767.
[18]Taylor C A,Wayne M F,Chiu W K S.Residual stress measurement in thin carbon films by Raman spectroscopy and nanoindentation[J].Thin Solid Films,2003,429(1/2):190-200.
[19]Zhu L N,Xu B S,Wang H D,et al.Measurement of residual stress in quenched 1045 steel by the nanoindentation method[J].Materials Characterization,2010,61(12):1359-1362.
[20]董美伶,金国,王海斗,等.纳米压痕法测量残余应力的研究现状[J].材料导报,2014,28(3):107-113.
[21]Zhu J,Xie H,Hu Z,et al.Cross-sectional residual stresses in thermal spray coatings measured by moiréinterferometry and nanoindentation technique[J].Journal of Thermal Spray Technology,2012,21(5):810-817.
[22]Khan M K,Fitzpatrick M E,Hainsworth S V,et al.Effect of residual stress on the nanoindentation response of aerospace aluminium alloys[J].Computational Materials Science,2011,50(10):2967-2976.
[23]Cheng Y T,Cheng C M.Scaling,dimensional analysis,and indentation measurements[J].Materials Science&Engineering R,2004,44(4):91-149.
[24]Dao M,Chollacoop N,Vliet K J V,et al.Computational modeling of the forward and reverse problems in instrumented sharp indentation[J].Acta Materialia,2001,49(19):3899-3918.
[25]Cheng G,Choi K S,Hu X,et al.Determining individual phase properties in a multi-phase Q&P steel using multi-scale indentation tests[J].Materials Science&Engineering A,2016,652:384-395.
[26]Gutierrez I.Correlation between nanoindentation and tensile properties:Influence of the indentation size effect[J].Materials Science&Engineering A,2003,361(1/2):377-384.
[27]Choi K S,Liu W N,Sun X,et al.Advanced micromechanical model for transformation-induced plasticity steels with application of in-situ,high-energy X-ray diffraction method[J].Metallurgical&Materials Transactions A,2008,39(13):3089-3096.