Effects of elastic-plastic properties of materials on residual indentation impressions in nano-indentation using sharp indenter

One of the primary features of nano-indentation technique is that the contact area induced by an indenter is indirectly measured by a relationship between the penetration depth and the known geometry of the indenter.However,this indirect measurement occasionally leads to inaccurate properties of the...

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Published inTransactions of Nonferrous Metals Society of China Vol. 22; no. S3; pp. 585 - 595
Main Authors LEE, Jung-Min, LEE, Chan-Joo, LEE, Kyung-Hun, KIM, Byung-Min
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2012
Subjects
exponent
FE simulation
hardening
nano-indentation
pile-up
simulation
sink-in
strain
strain hardening exponent
nano-indentation
pile-up
FE simulation
strain hardening exponent
sink-in
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Summary:One of the primary features of nano-indentation technique is that the contact area induced by an indenter is indirectly measured by a relationship between the penetration depth and the known geometry of the indenter.However,this indirect measurement occasionally leads to inaccurate properties of the indented material.The objective of this study is to investigate the effects of E/σr and the strain hardening exponents n of materials on the behaviors of pile-up and sink-in in nano-indentation and to predict n values of materials from the residual indentation impressions.The relations between the residual indentation profile and n value of the indented material were identified by dimensional analysis.Also,they were numerically formulated using FE analysis of nano-indentation for 140 different combinations of elastic-plastic parameters such as E,σy and n.The parameters of hrp/hm,herp/hm,Rr/hm and HO&P/Hreal were introduced as various dimensionless parameters to represent and quantify the residual indentation profile after indentation.They were subsequently characterized as dimensionless functions using n and E/σr values.Finally,the validity of these functions was verified through 3D FE analysis of nano-indentation for Al 6061-T6 and AISI 1010 materials.
Bibliography:nano-indentation;pile-up;sink-in;strain hardening exponent;FE simulation
43-1239/TG
Jung-Min LEE 1,Chan-Joo LEE 1,Kyung-Hun LEE 2,Byung-Min KIM 3 1.Dongnam Regional Division,Korea Institute of Industrial Technology,Busan 618-230,Korea;2.Precision Manufacturing Systems Division,Pusan National University,Busan 609-735,Korea;3.School of Mechanical Engineering,Pusan National University,Busan 609-735,Korea
One of the primary features of nano-indentation technique is that the contact area induced by an indenter is indirectly measured by a relationship between the penetration depth and the known geometry of the indenter.However,this indirect measurement occasionally leads to inaccurate properties of the indented material.The objective of this study is to investigate the effects of E/σr and the strain hardening exponents n of materials on the behaviors of pile-up and sink-in in nano-indentation and to predict n values of materials from the residual indentation impressions.The relations between the residual indentation profile and n value of the indented material were identified by dimensional analysis.Also,they were numerically formulated using FE analysis of nano-indentation for 140 different combinations of elastic-plastic parameters such as E,σy and n.The parameters of hrp/hm,herp/hm,Rr/hm and HO&P/Hreal were introduced as various dimensionless parameters to represent and quantify the residual indentation profile after indentation.They were subsequently characterized as dimensionless functions using n and E/σr values.Finally,the validity of these functions was verified through 3D FE analysis of nano-indentation for Al 6061-T6 and AISI 1010 materials.
ISSN:1003-6326
DOI:10.1016/S1003-6326(12)61770-1