A Convenient Identification Method of Metal Material Mechanical Properties Based on Micro to Milli Indentation Test

A Convenient Identification Method of Metal Material Mechanical Properties Based on Micro to Milli Indentation Test Junji SAKAMOTO, Garuda FUJII and Masayuki NAKAMURA This paper presents a new and convenient process for determining the material plasticity parameters of metal materials through an indentation test conducted using a Rockwell testing machine and FE analysis. Identified parameters almost coincide with practical values. The proposed method can be used to evaluate the characteristics of materials on the order of micro to millimeters. First, the P−h curves of the indentation are determined by experiment. Second, FE analysis of the indentation test assuming plastic hardening behavior in power−law hardening material is specified by the stress–strain curve. The FE model consisted of the test piece material and the indenter with a spring element considered the elastic deformation of the measuring system. The material parameters can be identified based on the curve fit using the polynomial function consisting of material parameters. The best solution is determined by using the response surface methodology. For identification example using steel and cupper alloy, the estimation of the plastic and elastic properties are possible for practical use.