Investigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method

Residual stresses are the stresses that retain inside the part after removal of loads. These stresses are known to substantially affect performance of a part in terms of service life and response to various kinds of loads. Determination of these stresses has been a challenging issue. Especially in n...

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Autores principales: Jianxiong Wu, Dajiang Xiong, Xinshun Li, Yunshuang Liu, Haiji Chen, Liang Wen, Lili Dong, Silai Zheng, Hao Xu, Huiliang Zhang, Shoupeng Wang, Laishui Zhou, Hongyu Wei
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Publicado: KeAi Communications Co., Ltd. 2022
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Acceso en línea:https://doaj.org/article/9e7ca694045e4593881cc3d3d6a89df3
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spelling oai:doaj.org-article:9e7ca694045e4593881cc3d3d6a89df32021-11-22T04:28:29ZInvestigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method2588-840410.1016/j.ijlmm.2021.08.001https://doaj.org/article/9e7ca694045e4593881cc3d3d6a89df32022-03-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2588840421000366https://doaj.org/toc/2588-8404Residual stresses are the stresses that retain inside the part after removal of loads. These stresses are known to substantially affect performance of a part in terms of service life and response to various kinds of loads. Determination of these stresses has been a challenging issue. Especially in novel Incremental Sheet Forming (ISF) process, no analytical approach has been applied to evaluate these stresses. This study presents an approach to evaluate residual stresses in the ISF parts. The distribution of residual stresses was determined and verified for rotational parts. It was found that the magnitude of stresses reduces as the radius and height of part increases. Further, this happens in a non-linear fashion. Also, the stresses are compressive in nature on the inner surface of part that will derive the improvement of fatigue life of the deformed parts.Jianxiong WuDajiang XiongXinshun LiYunshuang LiuHaiji ChenLiang WenLili DongSilai ZhengHao XuHuiliang ZhangShoupeng WangLaishui ZhouHongyu WeiKeAi Communications Co., Ltd.articleSheet metal formingIncremental formingResidual stressStress distributionTechnologyTENInternational Journal of Lightweight Materials and Manufacture, Vol 5, Iss 1, Pp 84-90 (2022)
institution DOAJ
collection DOAJ
language EN
topic Sheet metal forming
Incremental forming
Residual stress
Stress distribution
Technology
T
spellingShingle Sheet metal forming
Incremental forming
Residual stress
Stress distribution
Technology
T
Jianxiong Wu
Dajiang Xiong
Xinshun Li
Yunshuang Liu
Haiji Chen
Liang Wen
Lili Dong
Silai Zheng
Hao Xu
Huiliang Zhang
Shoupeng Wang
Laishui Zhou
Hongyu Wei
Investigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method
description Residual stresses are the stresses that retain inside the part after removal of loads. These stresses are known to substantially affect performance of a part in terms of service life and response to various kinds of loads. Determination of these stresses has been a challenging issue. Especially in novel Incremental Sheet Forming (ISF) process, no analytical approach has been applied to evaluate these stresses. This study presents an approach to evaluate residual stresses in the ISF parts. The distribution of residual stresses was determined and verified for rotational parts. It was found that the magnitude of stresses reduces as the radius and height of part increases. Further, this happens in a non-linear fashion. Also, the stresses are compressive in nature on the inner surface of part that will derive the improvement of fatigue life of the deformed parts.
format article
author Jianxiong Wu
Dajiang Xiong
Xinshun Li
Yunshuang Liu
Haiji Chen
Liang Wen
Lili Dong
Silai Zheng
Hao Xu
Huiliang Zhang
Shoupeng Wang
Laishui Zhou
Hongyu Wei
author_facet Jianxiong Wu
Dajiang Xiong
Xinshun Li
Yunshuang Liu
Haiji Chen
Liang Wen
Lili Dong
Silai Zheng
Hao Xu
Huiliang Zhang
Shoupeng Wang
Laishui Zhou
Hongyu Wei
author_sort Jianxiong Wu
title Investigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method
title_short Investigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method
title_full Investigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method
title_fullStr Investigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method
title_full_unstemmed Investigation on residual stress in rotational parts formed through Incremental Sheet Forming: A novel evaluation method
title_sort investigation on residual stress in rotational parts formed through incremental sheet forming: a novel evaluation method
publisher KeAi Communications Co., Ltd.
publishDate 2022
url https://doaj.org/article/9e7ca694045e4593881cc3d3d6a89df3
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