Study on Fatigue of Hinge Sleeve of Cubic Press based on ANSYS-Reference-Cited by-同舟云学术

Study on Fatigue of Hinge Sleeve of Cubic Press based on ANSYS

Published:2013-10 Issue: Volume:457-458 Page:585-588
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Sun Xuan¹,Qi Wen Zheng¹,Zhao Hong¹,Li Hai Xia¹

Affiliation:

1. Guilin University of Technology

Abstract

Hinge sleeve of cubic press is the most important equipment which is used in the field of processing and production of super-hard materials, and is always under super high pressure, so the problem of fatigue must be concerned. In this paper, Actual model of hinge sleeve of cubic press was established in ANSYS. Strength of hinge sleeve of cubic press was calculated under super high pressure load in realistic condition, which the equivalent stress contours were obtained, and the danger point was found out. Then the fatigue analysis was carried out to this danger point by applying ANSYS/Fatigue module. Consequently the fatigue usage coefficients were obtained.

Publisher

Trans Tech Publications, Ltd.

Link

https://www.scientific.net/AMM.457-458.585.pdf

Reference8 articles.

1. QIN Dong-chen, LIANGYing, LAKai-ying. Research on Hinge Sleeve's Design System Integration Based on Pro/Engineer and Ansys[J]. Journal of Zhengzhou University (Engineering Science), Vol. 26(2005. 6), 67-71.

2. Qin Dongchen, Chen Jiangyi, Liang Ying, Qin Xiaoming. Structural optimal design for hinge sleeve of cubic press[J]. Diamond& Abrasives Engineering, Vol. 149(2005. 10). 70-72.

3. QIN DongChen，LIANG Ying，CHEN LiPing etc. Research for Hinge Sleeve's Structural Optimal Design Based on Fatigue Intensity[J]. Journal of Mechanical Strength. Vol. 28 (2006. 2), 306~310.

4. Qin Dongchen, Liang Ying, Chen Lipin, etc. Research on Structural Optimization Design for Key Parts of a Six-face Presser[J]. China Mechanical Engineering. Vol. 18 ( 2007. 06), 697-701.

5. Niu Qingbo, Wang Yanwei, LiYanchun, etc. Simulating design of hinge system of cubic press based on FEM and fatigue life analysis[J]. Diamond& Abrasives Engineering. Vol. 158(2007. 02), 76-79.

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