Identification of the hardening law of materials with spherical indentation using the average representative strain for several penetration depths

The identification of plastic properties with spherical indentation has been the subject of many studies in the last decades. In the present work, a new method for the determination of the hardening law of materials using the load–displacement curve of a spherical indentation test is proposed. This...

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Published inMaterials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 606; pp. 409 - 416
Main Authors Moussa, Charbel, Hernot, Xavier, Bartier, Olivier, Delattre, Guillaume, Mauvoisin, Gérard
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 12.06.2014
Elsevier
Subjects
Applied sciences
Average representative strain
Confidence domain
Cross-disciplinary physics: materials science; rheology
Deformation, plasticity, and creep
Elasticity. Plasticity
Engineering Sciences
Error analysis
Exact sciences and technology
Hardening
Hardening law
Hardness tests
Heterogeneity
Indentation
Law
Materials science
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Penetration depth
Physics
Spherical indentation
Steel alloy
Strain
Treatment of materials and its effects on microstructure and properties
Hardening law
Spherical indentation
Confidence domain
Steel alloy
Average representative strain
Spherical shape
Displacement(deformation)
Indentation
Penetration depth
Alloy steel
Hardening
Heterogeneity
Plasticity
Plastic properties
confidence domain
hardening law
spherical indentation
average representative strain
Online AccessGet full text
ISSN0921-5093
1873-4936
DOI10.1016/j.msea.2014.03.123

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Abstract The identification of plastic properties with spherical indentation has been the subject of many studies in the last decades. In the present work, a new method for the determination of the hardening law of materials using the load–displacement curve of a spherical indentation test is proposed. This method is based on the use of an average representative strain. The advantage of the proposed average representative strain is that it is strictly obtained from the material in response to the indentation test. By using various values of penetration depth, the proposed method gives the range of strain for which the hardening law is precisely identified and allows determining a confidence domain that takes into account experimental imprecision and material heterogeneity. The influence of penetration depth and the error formula on the identified Hollomon hardening law are discussed in the present study. The present study clarifies many problems that were observed in previous studies such as the uniqueness of solution and the sensitivity of the indentation test to the plastic parameters of the Hollomon hardening law.
AbstractList The identification of plastic properties with spherical indentation has been the subject of many studies in the last decades. In the present work, a new method for the determination of the hardening law of materials using the load-displacement curve of a spherical indentation test is proposed. This method is based on the use of an average representative strain. The advantage of the proposed average representative strain is that it is strictly obtained from the material in response to the indentation test. By using various values of penetration depth, the proposed method gives the range of strain for which the hardening law is precisely identified and allows determining a confidence domain that takes into account experimental imprecision and material heterogeneity. The influence of penetration depth and the error formula on the identified Hollomon hardening law are discussed in the present study. The present study clarifies many problems that were observed in previous studies such as the uniqueness of solution and the sensitivity of the indentation test to the plastic parameters of the Hollomon hardening law.
The identification of plastic properties with spherical indentation has been the subject of many studies in last decades. In the present work, a new method for the determination of the hardening law of materials using the load-displacement curve of a spherical indentation test is proposed. This method is based on the use of an average representative strain. The advantage of the proposed average representative strain is that it is strictly obtained from the material response to the indentation test. By using various values of penetration depth, the proposed method gives the range of strain for which the hardening law is precisely identified and allows determining a confidence domain that takes into account experimental imprecision and material heterogeneity. The influence of penetration depth and the error formula on the identified Hollomon hardening law are discussed in the present study. The present study clarifies many problems that were observed in previous studies such as the uniqueness solution and the sensitivity of the indentation test to the plastic parameters of the Hollomon hardening law.
Author Hernot, Xavier
Mauvoisin, Gérard
Moussa, Charbel
Delattre, Guillaume
Bartier, Olivier
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Keywords Hardening law
Spherical indentation
Confidence domain
Steel alloy
Average representative strain
Spherical shape
Displacement(deformation)
Indentation
Penetration depth
Alloy steel
Hardening
Heterogeneity
Plasticity
Plastic properties
confidence domain
hardening law
spherical indentation
average representative strain
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Snippet The identification of plastic properties with spherical indentation has been the subject of many studies in the last decades. In the present work, a new method...
The identification of plastic properties with spherical indentation has been the subject of many studies in last decades. In the present work, a new method for...
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SubjectTerms Applied sciences
Average representative strain
Confidence domain
Cross-disciplinary physics: materials science; rheology
Deformation, plasticity, and creep
Elasticity. Plasticity
Engineering Sciences
Error analysis
Exact sciences and technology
Hardening
Hardening law
Hardness tests
Heterogeneity
Indentation
Law
Materials science
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Penetration depth
Physics
Spherical indentation
Steel alloy
Strain
Treatment of materials and its effects on microstructure and properties
Title Identification of the hardening law of materials with spherical indentation using the average representative strain for several penetration depths
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