On the identification of stress–strain relation by instrumented indentation with spherical indenter

► Instrumented indentation with spherical indenter. ► Identification of stress–strain relation using Tabor’s formulae. ► Limitations due to indenter shape, uneven contact and non-linear material behavior. The local stress–strain relations were characterized by instrumented indentation with spherical...

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Published inMaterials in engineering Vol. 37; pp. 373 - 378
Main Authors Haušild, Petr, Materna, Aleš, Nohava, Jiří
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2012
Subjects
E. Mechanical
F. Plastic behavior
E. Mechanical
F. Plastic behavior
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Abstract ► Instrumented indentation with spherical indenter. ► Identification of stress–strain relation using Tabor’s formulae. ► Limitations due to indenter shape, uneven contact and non-linear material behavior. The local stress–strain relations were characterized by instrumented indentation with spherical indenter. The results obtained by indentation with different indenter radii were compared with tensile stress–strain curves of two metastable austenitic stainless steels (grade A301 and A304) and analyzed using finite element model. A forward finite element analysis was also carried out with model material behavior (elastic–perfectly plastic, linear hardening, piece-wise linear hardening and power-law hardening). The limitations of identified stress–strain relations arising from the indenter shape, uneven contact and non-linear material behavior due to the deformation induced martensitic transformation are discussed.
AbstractList ► Instrumented indentation with spherical indenter. ► Identification of stress–strain relation using Tabor’s formulae. ► Limitations due to indenter shape, uneven contact and non-linear material behavior. The local stress–strain relations were characterized by instrumented indentation with spherical indenter. The results obtained by indentation with different indenter radii were compared with tensile stress–strain curves of two metastable austenitic stainless steels (grade A301 and A304) and analyzed using finite element model. A forward finite element analysis was also carried out with model material behavior (elastic–perfectly plastic, linear hardening, piece-wise linear hardening and power-law hardening). The limitations of identified stress–strain relations arising from the indenter shape, uneven contact and non-linear material behavior due to the deformation induced martensitic transformation are discussed.
Author Nohava, Jiří
Haušild, Petr
Materna, Aleš
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  email: Petr.Hausild@fjfi.cvut.cz
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  surname: Materna
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  organization: Czech Technical University in Prague, Faculty of Nuclear Sciences and Physical Engineering, Department of Materials, Trojanova 13, 120 00 Praha 2, Czech Republic
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  givenname: Jiří
  surname: Nohava
  fullname: Nohava, Jiří
  organization: CSM Instruments, Rue de la Gare 4, CH-2034 Peseux, Switzerland
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Snippet ► Instrumented indentation with spherical indenter. ► Identification of stress–strain relation using Tabor’s formulae. ► Limitations due to indenter shape,...
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SubjectTerms E. Mechanical
F. Plastic behavior
Title On the identification of stress–strain relation by instrumented indentation with spherical indenter
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