Work hardening in metals: Microscopic and macroscopic behavior through a wide range of strain

Nguyen Q. Chinh; Zenji Horita; Terence G. Langdon

doi:10.4028/www.scientific.net/msf.426-432.453

Work hardening in metals: Microscopic and macroscopic behavior through a wide range of strain

Nguyen Q. Chinh, Zenji Horita, Terence G. Langdon

Research output: Contribution to journal › Conference article › peer-review

2 Citations (Scopus)

Abstract

The macroscopic relationships between true stress and true strain for pure metals such as Al and Cu and for Al-Mg alloys were investigated both experimentally and theoretically. Experimental results showed that for pure Al and Cu the relationship between stress and strain may be accurately described by an exponential-power law constitutive relationship over a wide range of strain. The validity of the new relationship is supported also by theoretical considerations when taking into account certain conditions appropriate to the main micro-mechanisms of plastic deformation. This new relationship can also be used for a description of the global work hardening of an Al-3%wt Mg alloy.

Original language	English
Pages (from-to)	453-458
Number of pages	6
Journal	Materials Science Forum
Volume	426-432
Issue number	1
DOIs	https://doi.org/10.4028/www.scientific.net/msf.426-432.453
Publication status	Published - 2003
Event	Thermec 2003 Processing and Manufacturing of Advanced Materials - Madrid, Spain Duration: Jul 7 2003 → Jul 11 2003

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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title = "Work hardening in metals: Microscopic and macroscopic behavior through a wide range of strain",

abstract = "The macroscopic relationships between true stress and true strain for pure metals such as Al and Cu and for Al-Mg alloys were investigated both experimentally and theoretically. Experimental results showed that for pure Al and Cu the relationship between stress and strain may be accurately described by an exponential-power law constitutive relationship over a wide range of strain. The validity of the new relationship is supported also by theoretical considerations when taking into account certain conditions appropriate to the main micro-mechanisms of plastic deformation. This new relationship can also be used for a description of the global work hardening of an Al-3%wt Mg alloy.",

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T1 - Work hardening in metals

T2 - Thermec 2003 Processing and Manufacturing of Advanced Materials

AU - Chinh, Nguyen Q.

AU - Horita, Zenji

AU - Langdon, Terence G.

PY - 2003

Y1 - 2003

N2 - The macroscopic relationships between true stress and true strain for pure metals such as Al and Cu and for Al-Mg alloys were investigated both experimentally and theoretically. Experimental results showed that for pure Al and Cu the relationship between stress and strain may be accurately described by an exponential-power law constitutive relationship over a wide range of strain. The validity of the new relationship is supported also by theoretical considerations when taking into account certain conditions appropriate to the main micro-mechanisms of plastic deformation. This new relationship can also be used for a description of the global work hardening of an Al-3%wt Mg alloy.

AB - The macroscopic relationships between true stress and true strain for pure metals such as Al and Cu and for Al-Mg alloys were investigated both experimentally and theoretically. Experimental results showed that for pure Al and Cu the relationship between stress and strain may be accurately described by an exponential-power law constitutive relationship over a wide range of strain. The validity of the new relationship is supported also by theoretical considerations when taking into account certain conditions appropriate to the main micro-mechanisms of plastic deformation. This new relationship can also be used for a description of the global work hardening of an Al-3%wt Mg alloy.

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AN - SCOPUS:0038267317

SN - 0255-5476

VL - 426-432

SP - 453

EP - 458

JO - Materials Science Forum

JF - Materials Science Forum

IS - 1

Y2 - 7 July 2003 through 11 July 2003

ER -

Work hardening in metals: Microscopic and macroscopic behavior through a wide range of strain

Abstract

All Science Journal Classification (ASJC) codes

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