Stress analysis model of strip winding system with a sleeve for a coil of thin stainless steel

In a strip winding process,the sleeve is a hollow cylinder that is mounted between a strip coil and a mandrel to maintain uniform coil shape when the strip coil is very thin,but its deformation behavior has not been investigated before.Thus,a finite element(FE)model was presented to calculate the st...

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Bibliographic Details
Published in:Journal of iron and steel research, international international, 2017, Vol.24 (1), p.1-7
Main Authors: Park, Yong-hui, Park, Kyutae, Won, Sung-yeun, Hong, Wan-kee, Park, Hyun-chul
Format: Article
Language:English
Subjects:
Applied and Technical Physics
Belt wrapper
Engineering
Grooved joint
Hoop stress
Interference fit
Machines
Manufacturing
Materials Engineering
Materials Science
Metallic Materials
Physical Chemistry
Processes
Radial stress
Strip winding system
Von-Mises stress
不锈钢
变形行为
应力分布
应力分析模型
有限元模型
稳态过程
缠绕系统
钢卷
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Summary:In a strip winding process,the sleeve is a hollow cylinder that is mounted between a strip coil and a mandrel to maintain uniform coil shape when the strip coil is very thin,but its deformation behavior has not been investigated before.Thus,a finite element(FE)model was presented to calculate the stress distribution in a sleeve and strip coil when 1-3mm-thick stainless steel was wound around the sleeve.The FE model was developed by extending aprevious model by adding a sleeve between the mandrel and strip,and by modifying the boundary and interaction conditions.The strip winding process was divided into an initial process and a steady-state process.During the initial process,the minimum and maximum pressure required on the belt wrapper to maintain coil shape by self-friction of the strip was calculated by the FE model when the belt wrapper is ejected at the end of the initial process.After the initial process,an analytical model of the steady-state process was established to calculate the stress distribution and was compared with the FE model to validate it.The suggested analytical model took 11 sto give the same stress distribution that the FE model took 30 dto produce.
ISSN:1006-706X
2210-3988
DOI:10.1016/S1006-706X(17)30002-X