Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen

Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen

The weld pass sequence generally affects residual stress profiles. In this study, the residual stress profiles of bead on plate specimens were analytically and experimentally examined. The material used in this study was the low alloy steel SQV2A (JIS G 3120), which is equivalent to ASTM A533. Phase...

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Autores principales: Nobuyoshi YANAGIDA, Koichi SAITO
Formato: article
Lenguaje:EN
Publicado: The Japan Society of Mechanical Engineers 2016
Materias:
weld
residual stress
finite element method
stress-strain measurement
structural analysis
Mechanical engineering and machinery
TJ1-1570
Acceso en línea:https://doaj.org/article/a766e3baf7be4374af637bfc1fac3db7
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spelling oai:doaj.org-article:a766e3baf7be4374af637bfc1fac3db72021-11-26T06:51:30ZEffect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen2187-974510.1299/mej.15-00598https://doaj.org/article/a766e3baf7be4374af637bfc1fac3db72016-02-01T00:00:00Zhttps://www.jstage.jst.go.jp/article/mej/3/3/3_15-00598/_pdf/-char/enhttps://doaj.org/toc/2187-9745The weld pass sequence generally affects residual stress profiles. In this study, the residual stress profiles of bead on plate specimens were analytically and experimentally examined. The material used in this study was the low alloy steel SQV2A (JIS G 3120), which is equivalent to ASTM A533. Phase transformation usually occurs around the welded area in SQV2A and also affects the residual stress profiles. To estimate residual stress, three specimens were fabricated. One was single pass bead welded and the others were five pass and nine pass bead welded. To predict the residual stress profiles numerically, temperature history analyses and residual stress analyses were conducted. Phase transformation strain was taken into consideration as a component of thermal strain. Analysis results show that the amount of longitudinal tensile stress at the center of the last pass area is lower than that at the edges. The longitudinal residual stress profiles around the last pass area of the five pass and nine pass specimens are similar to that around the weld pass area of the single pass specimen. The longitudinal tensile stress in the previous passes area is higher than that at the center of the last pass in the five pass and nine pass specimens. These analysis results suggest that the phase transformation strain affects the residual stress profiles around the last pass area in each specimen. To validate the analysis results, residual stress of these specimens were measured by using the strain relief method. The analysis results with the phase transformation strain consideration are in agreement with the experiment results. Accordingly, these analysis results can be considered valid.Nobuyoshi YANAGIDAKoichi SAITOThe Japan Society of Mechanical Engineersarticleweldresidual stressfinite element methodstress-strain measurementstructural analysisMechanical engineering and machineryTJ1-1570ENMechanical Engineering Journal, Vol 3, Iss 3, Pp 15-00598-15-00598 (2016)
institution DOAJ
collection DOAJ
language EN
topic weld
residual stress
finite element method
stress-strain measurement
structural analysis
Mechanical engineering and machinery
TJ1-1570
spellingShingle weld
residual stress
finite element method
stress-strain measurement
structural analysis
Mechanical engineering and machinery
TJ1-1570
Nobuyoshi YANAGIDA
Koichi SAITO
Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen
description The weld pass sequence generally affects residual stress profiles. In this study, the residual stress profiles of bead on plate specimens were analytically and experimentally examined. The material used in this study was the low alloy steel SQV2A (JIS G 3120), which is equivalent to ASTM A533. Phase transformation usually occurs around the welded area in SQV2A and also affects the residual stress profiles. To estimate residual stress, three specimens were fabricated. One was single pass bead welded and the others were five pass and nine pass bead welded. To predict the residual stress profiles numerically, temperature history analyses and residual stress analyses were conducted. Phase transformation strain was taken into consideration as a component of thermal strain. Analysis results show that the amount of longitudinal tensile stress at the center of the last pass area is lower than that at the edges. The longitudinal residual stress profiles around the last pass area of the five pass and nine pass specimens are similar to that around the weld pass area of the single pass specimen. The longitudinal tensile stress in the previous passes area is higher than that at the center of the last pass in the five pass and nine pass specimens. These analysis results suggest that the phase transformation strain affects the residual stress profiles around the last pass area in each specimen. To validate the analysis results, residual stress of these specimens were measured by using the strain relief method. The analysis results with the phase transformation strain consideration are in agreement with the experiment results. Accordingly, these analysis results can be considered valid.
format article
author Nobuyoshi YANAGIDA
Koichi SAITO
author_facet Nobuyoshi YANAGIDA
Koichi SAITO
author_sort Nobuyoshi YANAGIDA
title Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen
title_short Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen
title_full Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen
title_fullStr Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen
title_full_unstemmed Effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen
title_sort effect of phase transformation strain on residual stress analysis results of multi pass bead on plate specimen
publisher The Japan Society of Mechanical Engineers
publishDate 2016
url https://doaj.org/article/a766e3baf7be4374af637bfc1fac3db7
work_keys_str_mv AT nobuyoshiyanagida effectofphasetransformationstrainonresidualstressanalysisresultsofmultipassbeadonplatespecimen
AT koichisaito effectofphasetransformationstrainonresidualstressanalysisresultsofmultipassbeadonplatespecimen
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