Revisiting the procedure for characterising mechanical properties in welded joints through nanoindentation

Chao Chang; Gesheng Xiao; Erqiang Liu; Jinbao Lin; Xuexia Zhang; Xu Long; Le le Zhang

doi:10.1080/02670836.2019.1603889

Revisiting the procedure for characterising mechanical properties in welded joints through nanoindentation

Chao Chang, Gesheng Xiao, Erqiang Liu, Jinbao Lin, Xuexia Zhang, Xu Long, Le le Zhang

School of Mechanics,Civil Engineering and Architecture

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

5 Scopus citations

Abstract

Owing to the microstructural inhomogeneities and residual stresses that are generated during welding, welded joints are the weakest parts of structures. Nanoindentation, a non-destructive technique, is commonly used to analyse the local mechanical properties and residual stresses in welded joints. However, the pile-up effect is often neglected during the nanoindentation procedure, which results in inaccurate measurements. In this study, an alternative procedure, based on a previous study, was used to measure the local mechanical properties and residual stresses in metal inert gas (MIG) welded joints. Moreover, a new equation is proposed for estimating the residual stresses.

Original language	English
Pages (from-to)	986-992
Number of pages	7
Journal	Materials Science and Technology
Volume	35
Issue number	8
DOIs	https://doi.org/10.1080/02670836.2019.1603889
State	Published - 24 May 2019

Keywords

local mechanical properties
Nanoindentation
residual stress
welding joint

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10.1080/02670836.2019.1603889

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title = "Revisiting the procedure for characterising mechanical properties in welded joints through nanoindentation",

abstract = "Owing to the microstructural inhomogeneities and residual stresses that are generated during welding, welded joints are the weakest parts of structures. Nanoindentation, a non-destructive technique, is commonly used to analyse the local mechanical properties and residual stresses in welded joints. However, the pile-up effect is often neglected during the nanoindentation procedure, which results in inaccurate measurements. In this study, an alternative procedure, based on a previous study, was used to measure the local mechanical properties and residual stresses in metal inert gas (MIG) welded joints. Moreover, a new equation is proposed for estimating the residual stresses.",

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author = "Chao Chang and Gesheng Xiao and Erqiang Liu and Jinbao Lin and Xuexia Zhang and Xu Long and Zhang, {Le le}",

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T1 - Revisiting the procedure for characterising mechanical properties in welded joints through nanoindentation

AU - Chang, Chao

AU - Xiao, Gesheng

AU - Liu, Erqiang

AU - Lin, Jinbao

AU - Zhang, Xuexia

AU - Long, Xu

AU - Zhang, Le le

PY - 2019/5/24

Y1 - 2019/5/24

N2 - Owing to the microstructural inhomogeneities and residual stresses that are generated during welding, welded joints are the weakest parts of structures. Nanoindentation, a non-destructive technique, is commonly used to analyse the local mechanical properties and residual stresses in welded joints. However, the pile-up effect is often neglected during the nanoindentation procedure, which results in inaccurate measurements. In this study, an alternative procedure, based on a previous study, was used to measure the local mechanical properties and residual stresses in metal inert gas (MIG) welded joints. Moreover, a new equation is proposed for estimating the residual stresses.

AB - Owing to the microstructural inhomogeneities and residual stresses that are generated during welding, welded joints are the weakest parts of structures. Nanoindentation, a non-destructive technique, is commonly used to analyse the local mechanical properties and residual stresses in welded joints. However, the pile-up effect is often neglected during the nanoindentation procedure, which results in inaccurate measurements. In this study, an alternative procedure, based on a previous study, was used to measure the local mechanical properties and residual stresses in metal inert gas (MIG) welded joints. Moreover, a new equation is proposed for estimating the residual stresses.

KW - local mechanical properties

KW - Nanoindentation

KW - residual stress

KW - welding joint

UR - http://www.scopus.com/inward/record.url?scp=85064457988&partnerID=8YFLogxK

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DO - 10.1080/02670836.2019.1603889

M3 - 文章

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SN - 0267-0836

VL - 35

SP - 986

EP - 992

JO - Materials Science and Technology

JF - Materials Science and Technology

IS - 8

ER -

Revisiting the procedure for characterising mechanical properties in welded joints through nanoindentation

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Keywords

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