Stress distribution and fatigue life of built-up sleeved backup roll

被引：0

作者：

Zhong-ying Zhu

Deng-yue Sun

Shi-ming Xu

机构：

[1] Yanshan University,National Engineering Technology Research Center of Cold Rolling Strip Equipment and Technology

来源：

Journal of Central South University | 2012年 / 19卷

关键词：

built-up sleeved backup roll; stress-strain analysis; finite element method; shrink range; fatigue life;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The advantage of built-up sleeved backup roll was described. Based on the stress distribution analysis and simulation for the built-up sleeved backup roll by using finite element method, the effects of roll sleeve thickness and shrink range on the stress-strain field were studied. Finally, based on the methodology and strategy of the fatigue analysis, fatigue life of backup roll was estimated by using the stress-strain data obtained through finite element simulation. The results show that roll sleeve thickness and shrink range have a great influence on sleeve stress distribution of built-up sleeved roll. Under the circumstance of ensuring transferring enough torque, the shrink range should be kept small. However, thicker roll sleeve has longer roll service life when the shrink range is constant.

引用

页码：2173 / 2178

页数：5

共 45 条

[1]

Dong Qi.(2008)Improvement of heat treatment of roll sleeve of backup roll [J] Cfhi Technology 1 26-27

[2]

Jones R. M. F.(2000)Processing and properties of spray formed hss rolling mill roll sleeves [J] Metal Powder Report 6 38-23

[3]

Kennedy R. L.(2006)The manufacturing of the compound bushing rolls [J] Heavy Casting and Forging 2 22-13

[4]

Qiao S.-j.(2004)Study on roller repairing technology [J] Mechanical Management and Development 2 12-363

[5]

Liu D.-h.(2008)An experimental and analytical study of fatigue crack shape control by cold working [J] Engineering Fracture Mechanics 75 355-4384

[6]

Wang P.-x.(2011)Premature failure analysis of forged cold back-up roll in a continuous tandem mill [J] Materials and Design 32 4376-267

[7]

Wu C.-h.(2004)Roll deformation and stress distribution under thermo-mechanical loading in cold rolling [J] Journal of Materials Processing Technology 147 255-716

[8]

Zhang Y.-sheng.(2010)Finite elements prediction of thermal stresses in work roll of hot rolling mills [J] Procedia Engineering 2 706-123

[9]

Ji Kai.(2000)Twin roll casting of aluminium alloys [J] Materials Science and Engineering A 280 116-572

[10]

Brennan F. P.(2007)Analysis of a shrink-fit failure on a gear hub/shaft assembly [J] Engineering Failure Analysis 14 557-1850

← 1 2 3 4 5 →