A Methodology for Inverse Determination of Stress-strain Curves Based on Spherical Indentation

Instrumented indentation testing is widely used for the mechanical characterization of materials and phases. Among important mechanical parameters such as hardness and Young’s modulus the determination of yield stress and hardening behavior of metallic materials calculated from indentation results i...

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Published inExperimental techniques (Westport, Conn.) Vol. 42; no. 4; pp. 343 - 353
Main Author Pöhl, F.
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.08.2018
Subjects
Characterization and Evaluation of Materials
Chemistry and Materials Science
Materials Science
Inverse analysis
Plastic properties
Indentation
Stress-strain curve
Online AccessGet full text
ISSN0732-8818
1747-1567
DOI10.1007/s40799-018-0238-1

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Abstract Instrumented indentation testing is widely used for the mechanical characterization of materials and phases. Among important mechanical parameters such as hardness and Young’s modulus the determination of yield stress and hardening behavior of metallic materials calculated from indentation results is a particular topical subject. This paper presents a methodology which allows for the reconstruction of the stress-strain curve from a single load-displacement curve measured by a spherical indenter. The method is based on the depth-dependent strain field induced by a spherical indenter. The loading part of the curve is discretised in single tuples of indentation depth and force. Since the mean strain induced by the spherical indenter is dependent on indentation depth, every depth can be assigned to a mean uniaxial strain value. The force is then used to calculate the associated uniaxial stress. The method was exemplarily applied to the carbon steel C45 in different heat treatment conditions. It could be shown that after a calibration procedure the stress-strain curves of the carbon steel can be calculated without the requirement of assuming a mathematical description of the curve (e.g. power-law material behavior). The method and its framework can easily be expanded and adjusted in order to be used as an easy and quick method for inverse determination of material parameters.
AbstractList Instrumented indentation testing is widely used for the mechanical characterization of materials and phases. Among important mechanical parameters such as hardness and Young’s modulus the determination of yield stress and hardening behavior of metallic materials calculated from indentation results is a particular topical subject. This paper presents a methodology which allows for the reconstruction of the stress-strain curve from a single load-displacement curve measured by a spherical indenter. The method is based on the depth-dependent strain field induced by a spherical indenter. The loading part of the curve is discretised in single tuples of indentation depth and force. Since the mean strain induced by the spherical indenter is dependent on indentation depth, every depth can be assigned to a mean uniaxial strain value. The force is then used to calculate the associated uniaxial stress. The method was exemplarily applied to the carbon steel C45 in different heat treatment conditions. It could be shown that after a calibration procedure the stress-strain curves of the carbon steel can be calculated without the requirement of assuming a mathematical description of the curve (e.g. power-law material behavior). The method and its framework can easily be expanded and adjusted in order to be used as an easy and quick method for inverse determination of material parameters.
Author Pöhl, F.
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CitedBy_id crossref_primary_10_1002_adem_202001478
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Issue 4
Keywords Inverse analysis
Plastic properties
Indentation
Stress-strain curve
Language English
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Snippet Instrumented indentation testing is widely used for the mechanical characterization of materials and phases. Among important mechanical parameters such as...
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SubjectTerms Characterization and Evaluation of Materials
Chemistry and Materials Science
Materials Science
Title A Methodology for Inverse Determination of Stress-strain Curves Based on Spherical Indentation
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