Determination of plastic properties of surface modification layer of metallic materials from scratch tests

[1]  Z. Wen,et al.  Study of constitutive relation of rail decarburized layer , 2021, Engineering Failure Analysis.

[2]  Karuppasamy Pandian Marimuthu,et al.  Extracting plastic properties from in-plane displacement data of spherical indentation imprint , 2021 .

[3]  Jianwei Zhang,et al.  Influence of substrate and interfacial adhesion on the scratch resistance of poly(methylmethacrylate) , 2020 .

[4]  Chenghui Gao,et al.  Scratch behavior of polycarbonate by Rockwell C diamond indenter under progressive loading , 2020 .

[5]  A. Amanov Improvement in mechanical properties and fretting wear of Inconel 718 superalloy by ultrasonic nanocrystal surface modification , 2020, Wear.

[6]  MingHao Zhao,et al.  Characterization on the yield stress and interfacial coefficient of friction of glasses from scratch tests , 2020 .

[7]  Chenghui Gao,et al.  Measurement of fracture toughness of copper via constant-load microscratch with a spherical indenter , 2020 .

[8]  MingHao Zhao,et al.  Characterization of elastic-plastic properties of surface-modified layers introduced by carburizing , 2020 .

[9]  G. Wang,et al.  Determination of the mechanical properties of surface-modified layer of 18CrNiMo7-6 steel alloys after carburizing heat treatment , 2018, International Journal of Mechanical Sciences.

[10]  Zhixin Huang,et al.  Three-point bending collapse of thin-walled rectangular beams , 2018, International Journal of Mechanical Sciences.

[11]  H. Urbassek,et al.  Scratching an Al/Si Interface: Molecular Dynamics Study of a Composite Material , 2018, Tribology Letters.

[12]  R. Bennewitz,et al.  Friction and wear of PEEK in continuous sliding and unidirectional scratch tests , 2018, Tribology International.

[13]  M. Ayatollahi,et al.  Prediction of friction coefficients in nanoscratch testing of metals based on material flow lines , 2018 .

[14]  Karuppasamy Pandian Marimuthu,et al.  Scratch-tip-size effect and change of friction coefficient in nano / micro scratch tests using XFEM , 2018 .

[15]  A. Yonezu,et al.  Characterization of fatigue crack growth of concrete mortar under cyclic indentation loading , 2018 .

[16]  G. Kang,et al.  Experimental and numerical investigations of evaluation criteria and material parameters' coupling effect on polypropylene scratch , 2018 .

[17]  Hui Chen,et al.  Unified elastoplastic model based on a strain energy equivalence principle , 2017 .

[18]  Hui Chen,et al.  Unified ring-compression model for determining tensile properties of tubular materials , 2017 .

[19]  Chenghui Gao,et al.  Instrumented indentation of fused silica by Berkovich indenter , 2017 .

[20]  K. Zhou,et al.  Progress in Indentation Study of Materials via Both Experimental and Numerical Methods , 2017 .

[21]  T. Clyne,et al.  Extraction of plasticity parameters from a single test using a spherical indenter and FEM modelling , 2017 .

[22]  Hui Chen,et al.  Theoretical model for predicting uniaxial stress-strain relation by dual conical indentation based on equivalent energy principle , 2016 .

[23]  A. Akono,et al.  Microscopic fracture characterization of gas shale via scratch testing , 2016 .

[24]  Z. Farhat,et al.  Mechanical damage of hard chromium coatings on 416 stainless steel , 2016 .

[25]  A. Akono,et al.  Rebuttal: Shallow and deep scratch tests as powerful alternatives to assess the fracture properties of quasi-brittle materials , 2016 .

[26]  Han Jiang,et al.  In-situ observation of temperature rise during scratch testing of poly (methylmethacrylate) and polycarbonate , 2016 .

[27]  Franz-Josef Ulm,et al.  Fracture scaling relations for scratch tests of axisymmetric shape , 2012 .

[28]  Hendrik Meyer,et al.  Molecular dynamics simulations of the scratch test on linear amorphous polymer surfaces: A study of the local friction coefficient , 2011 .

[29]  P. Reis,et al.  Scratching as a fracture process: from butter to steel. , 2011, Physical review letters.

[30]  Limei Jiang,et al.  Elastic-plastic properties of thin film on elastic-plastic substrates characterized by nanoindentation test , 2010 .

[31]  S. Suresh,et al.  A new method for evaluating the plastic properties of materials through instrumented frictional sliding tests , 2010 .

[32]  Mihai O. Marasteanu,et al.  Using Semi Circular Bending Test to Evaluate Low Temperature Fracture Resistance for Asphalt Concrete , 2010 .

[33]  Taihua Zhang,et al.  Numerical verification for instrumented spherical indentation techniques in determining the plastic properties of materials , 2009 .

[34]  N. Petrinic,et al.  The Effect of Strain Rate, Specimen Geometry and Lubrication on Responses of Aluminium AA2024 in Uniaxial Compression Experiments , 2009 .

[35]  Han Jiang,et al.  Understanding of scratch-induced damage mechanisms in polymers , 2009 .

[36]  Subra Suresh,et al.  The frictional sliding response of elasto-plastic materials in contact with a conical indenter , 2007 .

[37]  Taihua Zhang,et al.  Influence of indenter tip roundness on hardness behavior in nanoindentation , 2007 .

[38]  George M. Pharr,et al.  On the measurement of yield strength by spherical indentation , 2006 .

[39]  M. Gupta,et al.  Scratch hardness and mechanical property correlation for Mg/SiC and Mg/SiC/Ti metal-matrix composites , 2006 .

[40]  S. Sinha 180 Years of scratch testing , 2006 .

[41]  Rainer Tilgner,et al.  Young's modulus of moulding compounds measured with a resonance method , 2005 .

[42]  Jian Lu,et al.  A new method to extract the plastic properties of metal materials from an instrumented spherical indentation loading curve , 2004 .

[43]  Yang-Tse Cheng,et al.  Scaling, dimensional analysis, and indentation measurements , 2004 .

[44]  Jian Lu,et al.  A new scheme for computational modeling of conical indentation in plastically graded materials , 2004 .

[45]  G. Pharr,et al.  Measurement of hardness and elastic modulus by instrumented indentation: Advances in understanding and refinements to methodology , 2004 .

[46]  Suresh K. Sitaraman,et al.  Elastic–plastic characterization of thin films using nanoindentation technique , 2003 .

[47]  Ali Nayebi,et al.  New procedure to determine steel mechanical parameters from the spherical indentation technique , 2002 .

[48]  Subra Suresh,et al.  Computational modeling of the forward and reverse problems in instrumented sharp indentation , 2001 .

[49]  Zenon Mróz,et al.  Identification of plastic hardening parameters of metals from spherical indentation tests , 2001 .

[50]  George M. Pharr,et al.  On the measurement of stress–strain curves by spherical indentation , 2001 .

[51]  X. Su,et al.  Analysis of diametral strain in uniaxial tensile and compression testing of round specimens of anisotropic materials , 2000 .

[52]  Subra Suresh,et al.  DETERMINATION OF ELASTOPLASTIC PROPERTIES BY INSTRUMENTED SHARP INDENTATION , 1999 .

[53]  Y. Pauleau,et al.  Adhesion and failure mechanisms of tungsten-carbon containing multilayered and graded coatings subjected to scratch tests , 1999 .

[54]  K. I. Kolokolov,et al.  Energy spectrum and topology evolution of the Fermi surface of two-dimensional holes in GaAs/Al 0.5 Ga 0.5 As heterostructures under uniaxial compression: Theory and experiment , 1999 .

[55]  A. Steckenborn,et al.  Determination of Young's moduli of micromechanical thin films using the resonance method , 1992 .

[56]  G. Pharr,et al.  An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments , 1992 .

[57]  D. S. Rickerby,et al.  The scratch adhesion test: An elastic-plastic indentation analysis , 1988 .

[58]  William D. Nix,et al.  A method for interpreting the data from depth-sensing indentation instruments , 1986 .

[59]  Geoffrey R. Tomlinson,et al.  Determination of the complex moduli of viscoelastic structural elements by resonance and non-resonance methods , 1985 .

[60]  A. Perry,et al.  Scratch adhesion testing of hard coatings , 1983 .

[61]  G. W. Hollenberg,et al.  Calculation of Stresses and Strains in Four‐Point Bending Creep Tests , 1971 .

[62]  D. Tabor The physical meaning of indentation and scratch hardness , 1956 .

[63]  D. Tabor A simple theory of static and dynamic hardness , 1948, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.