Techniques for determining mechanical properties of power-law materials by instrumented indentation tests

J. Lin; J. Luo; T. A. Dean

doi:10.4028/0-87849-433-2.555

Techniques for determining mechanical properties of power-law materials by instrumented indentation tests

J. Lin, J. Luo, T. A. Dean

Research output: Journal article publication › Journal article › Academic research › peer-review

2 Citations (Scopus)

Abstract

A novel optimization approach is proposed to extract mechanical properties of a power law material from its given experimental nano-indentation P-h curves. A set of equations have been established to relate the P-h curve to mechanical properties, E, σ_y and n, of a material. Using the proposed optimization approach, convergence studies were carried out for the determination of the mechanical properties of materials. It was found that the mechanical properties of an elastic-plastic material usually cannot be uniquely determined using a single loading and unloading P-h curve. Thus a technique has also been developed to determine the material properties from indentation p-h curves using indenters with two different angles. This enables the mechanical properties of materials to be uniquely determined.

Original language	English
Pages (from-to)	555-562
Number of pages	9
Journal	Key Engineering Materials
Volume	340-341
DOIs	https://doi.org/10.4028/0-87849-433-2.555
Publication status	Published - 2007
Externally published	Yes

Keywords

Finite element simulation
Material properties
Nano-indentation
Optimization
Power-law materials
Strain hardening

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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10.4028/0-87849-433-2.555

Cite this

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title = "Techniques for determining mechanical properties of power-law materials by instrumented indentation tests",

abstract = "A novel optimization approach is proposed to extract mechanical properties of a power law material from its given experimental nano-indentation P-h curves. A set of equations have been established to relate the P-h curve to mechanical properties, E, σy and n, of a material. Using the proposed optimization approach, convergence studies were carried out for the determination of the mechanical properties of materials. It was found that the mechanical properties of an elastic-plastic material usually cannot be uniquely determined using a single loading and unloading P-h curve. Thus a technique has also been developed to determine the material properties from indentation p-h curves using indenters with two different angles. This enables the mechanical properties of materials to be uniquely determined.",

keywords = "Finite element simulation, Material properties, Nano-indentation, Optimization, Power-law materials, Strain hardening",

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T1 - Techniques for determining mechanical properties of power-law materials by instrumented indentation tests

AU - Lin, J.

AU - Luo, J.

AU - Dean, T. A.

PY - 2007

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N2 - A novel optimization approach is proposed to extract mechanical properties of a power law material from its given experimental nano-indentation P-h curves. A set of equations have been established to relate the P-h curve to mechanical properties, E, σy and n, of a material. Using the proposed optimization approach, convergence studies were carried out for the determination of the mechanical properties of materials. It was found that the mechanical properties of an elastic-plastic material usually cannot be uniquely determined using a single loading and unloading P-h curve. Thus a technique has also been developed to determine the material properties from indentation p-h curves using indenters with two different angles. This enables the mechanical properties of materials to be uniquely determined.

AB - A novel optimization approach is proposed to extract mechanical properties of a power law material from its given experimental nano-indentation P-h curves. A set of equations have been established to relate the P-h curve to mechanical properties, E, σy and n, of a material. Using the proposed optimization approach, convergence studies were carried out for the determination of the mechanical properties of materials. It was found that the mechanical properties of an elastic-plastic material usually cannot be uniquely determined using a single loading and unloading P-h curve. Thus a technique has also been developed to determine the material properties from indentation p-h curves using indenters with two different angles. This enables the mechanical properties of materials to be uniquely determined.

KW - Finite element simulation

KW - Material properties

KW - Nano-indentation

KW - Optimization

KW - Power-law materials

KW - Strain hardening

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AN - SCOPUS:34147124890

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VL - 340-341

SP - 555

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JO - Key Engineering Materials

JF - Key Engineering Materials

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Techniques for determining mechanical properties of power-law materials by instrumented indentation tests

Abstract

Keywords

ASJC Scopus subject areas

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