Theoretical analysis of the relationships between hardness, elastic modulus, and the work of indentation for work-hardening materials

Rong Yang; Taihua Zhang; Yihui Feng

doi:10.1557/jmr.2010.0267

Theoretical analysis of the relationships between hardness, elastic modulus, and the work of indentation for work-hardening materials

Rong Yang
, Taihua Zhang^*
, Yihui Feng

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

31 Scopus citations

Abstract

In our previous paper, the expanding cavity model (ECM) and Lamé solution were used to obtain an analytical expression for the scale ratio between hardness (H) to reduced modulus (E_r) and unloading work (W_u) to total work (W_t) of indentation for elastic-perfectly plastic materials. In this paper, the more general work-hardening (linear and power-law) materials are studied. Our previous conclusions that this ratio depends mainly on the conical angle of indenter, holds not only for elastic perfectly-plastic materials, but also for work-hardening materials. These results were also verified by numerical simulations.

Original language	English
Pages (from-to)	2072-2077
Number of pages	6
Journal	Journal of Materials Research
Volume	25
Issue number	11
DOIs	https://doi.org/10.1557/jmr.2010.0267
State	Published - Nov 2010
Externally published	Yes

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title = "Theoretical analysis of the relationships between hardness, elastic modulus, and the work of indentation for work-hardening materials",

abstract = "In our previous paper, the expanding cavity model (ECM) and Lam{\'e} solution were used to obtain an analytical expression for the scale ratio between hardness (H) to reduced modulus (Er) and unloading work (Wu) to total work (Wt) of indentation for elastic-perfectly plastic materials. In this paper, the more general work-hardening (linear and power-law) materials are studied. Our previous conclusions that this ratio depends mainly on the conical angle of indenter, holds not only for elastic perfectly-plastic materials, but also for work-hardening materials. These results were also verified by numerical simulations.",

author = "Rong Yang and Taihua Zhang and Yihui Feng",

year = "2010",

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doi = "10.1557/jmr.2010.0267",

language = "英语",

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AU - Yang, Rong

AU - Zhang, Taihua

AU - Feng, Yihui

PY - 2010/11

Y1 - 2010/11

N2 - In our previous paper, the expanding cavity model (ECM) and Lamé solution were used to obtain an analytical expression for the scale ratio between hardness (H) to reduced modulus (Er) and unloading work (Wu) to total work (Wt) of indentation for elastic-perfectly plastic materials. In this paper, the more general work-hardening (linear and power-law) materials are studied. Our previous conclusions that this ratio depends mainly on the conical angle of indenter, holds not only for elastic perfectly-plastic materials, but also for work-hardening materials. These results were also verified by numerical simulations.

AB - In our previous paper, the expanding cavity model (ECM) and Lamé solution were used to obtain an analytical expression for the scale ratio between hardness (H) to reduced modulus (Er) and unloading work (Wu) to total work (Wt) of indentation for elastic-perfectly plastic materials. In this paper, the more general work-hardening (linear and power-law) materials are studied. Our previous conclusions that this ratio depends mainly on the conical angle of indenter, holds not only for elastic perfectly-plastic materials, but also for work-hardening materials. These results were also verified by numerical simulations.

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SN - 0884-2914

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JO - Journal of Materials Research

JF - Journal of Materials Research

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ER -

Theoretical analysis of the relationships between hardness, elastic modulus, and the work of indentation for work-hardening materials

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