Volume 7, Issue 2
Mechanical Behavior of Hollow Shaft and Sleeve with Interference Fit and Axial Tensile Load in Textile Machinery

Jie Zhang, Zheng Liang & Chuanjun Han

Journal of Fiber Bioengineering & Informatics, 7 (2014), pp. 273-283.

Published online: 2014-07

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  • Abstract

Interference fit is one of the most common assembly methods in textile machinery, this paper focuses on the interference assembly of hollow shaft and sleeve. The mechanical behaviors of hollow shaft and sleeve were investigated by using the finite element method under interference fit and axial tension load. The effects of interference, hollow degree, axial load, friction coefficient, sleeve thickness on the mechanical property were studied. The results show that there is still an “end effect” of the contact stress and equivalent stress of the sleeve under axial load. Maximum equivalent stress of hollow shaft appears on the inside cylindrical surface under tensile loading. Under axial tensile load, contact stress and the equivalent stress of sleeve increases with the increasing of interference, sleeve thickness, and decreases with the increasing of hollow degree and load. The equivalent stress of hollow shaft increases with the increasing of the four parameters. The friction coefficient has a very small effect on the mechanical property.

  • Keywords

Textile Machinery Hollow Shaft Sleeve Interference Fit Axial Tensile Load Mechanical Behavior Finite Element Method

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@Article{JFBI-7-273, author = {}, title = {Mechanical Behavior of Hollow Shaft and Sleeve with Interference Fit and Axial Tensile Load in Textile Machinery}, journal = {Journal of Fiber Bioengineering and Informatics}, year = {2014}, volume = {7}, number = {2}, pages = {273--283}, abstract = {Interference fit is one of the most common assembly methods in textile machinery, this paper focuses on the interference assembly of hollow shaft and sleeve. The mechanical behaviors of hollow shaft and sleeve were investigated by using the finite element method under interference fit and axial tension load. The effects of interference, hollow degree, axial load, friction coefficient, sleeve thickness on the mechanical property were studied. The results show that there is still an “end effect” of the contact stress and equivalent stress of the sleeve under axial load. Maximum equivalent stress of hollow shaft appears on the inside cylindrical surface under tensile loading. Under axial tensile load, contact stress and the equivalent stress of sleeve increases with the increasing of interference, sleeve thickness, and decreases with the increasing of hollow degree and load. The equivalent stress of hollow shaft increases with the increasing of the four parameters. The friction coefficient has a very small effect on the mechanical property.}, issn = {2617-8699}, doi = {https://doi.org/10.3993/jfbi06201413}, url = {http://global-sci.org/intro/article_detail/jfbi/4784.html} }
TY - JOUR T1 - Mechanical Behavior of Hollow Shaft and Sleeve with Interference Fit and Axial Tensile Load in Textile Machinery JO - Journal of Fiber Bioengineering and Informatics VL - 2 SP - 273 EP - 283 PY - 2014 DA - 2014/07 SN - 7 DO - http://doi.org/10.3993/jfbi06201413 UR - https://global-sci.org/intro/article_detail/jfbi/4784.html KW - Textile Machinery KW - Hollow Shaft KW - Sleeve KW - Interference Fit KW - Axial Tensile Load KW - Mechanical Behavior KW - Finite Element Method AB - Interference fit is one of the most common assembly methods in textile machinery, this paper focuses on the interference assembly of hollow shaft and sleeve. The mechanical behaviors of hollow shaft and sleeve were investigated by using the finite element method under interference fit and axial tension load. The effects of interference, hollow degree, axial load, friction coefficient, sleeve thickness on the mechanical property were studied. The results show that there is still an “end effect” of the contact stress and equivalent stress of the sleeve under axial load. Maximum equivalent stress of hollow shaft appears on the inside cylindrical surface under tensile loading. Under axial tensile load, contact stress and the equivalent stress of sleeve increases with the increasing of interference, sleeve thickness, and decreases with the increasing of hollow degree and load. The equivalent stress of hollow shaft increases with the increasing of the four parameters. The friction coefficient has a very small effect on the mechanical property.
Jie Zhang, Zheng Liang & Chuanjun Han. (2019). Mechanical Behavior of Hollow Shaft and Sleeve with Interference Fit and Axial Tensile Load in Textile Machinery. Journal of Fiber Bioengineering and Informatics. 7 (2). 273-283. doi:10.3993/jfbi06201413
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