Transactions of Materials and Heat Treatment

Title：Multi-objective optimization design on extrusion process for joint bearing

Authors： Xin Liangliang Wang Xiumei Huang Xiongrong

Unit： Shanghai University Shanghai Bearing Technology Research Institute

KeyWords： joint bearing extrusion forming orthogonal experiment multi-objective optimization bearing tightness

ClassificationCode：TH133.31; TP391.9

year,vol(issue):pagenumber：2019,44(7):79-85

Abstract：

For the problems of excessive extrusion force and uneven liner extrusion during the actual production of joint bearings, bearing YSG502S12 was taken as the research object, and the extrusion process of bearing was simulated by finite element software LSDYNA. Based on the orthogonal experiment design, taking the extrusion groove sizes of bearing outer ring and the feeding amount of mold as the process parameters, and selecting the bearing tightness, the maximum extrusion force and the maximum contact pressure of liner as the optimization targets, the optimization design was conducted by the comprehensive balance analysis method, and the optimization scheme of process parameters for joint bearing was obtained. The experimental results show that after optimization the clearance between inner and outer rings is uniform, and the bearing tightness is 0.04 mm, which meets the quality standard of product. Compared with the original process, the maximum extrusion force and the maximum contact pressure of liner decrease by 47.3% and 65.6%, respectively.

Funds：

国家国际科技合作专项（2015DFR50750）

辛亮亮（1994-），男，硕士研究生，E-mail：1007158304@qq.com；通讯作者：王秀梅（1972-），女，博士，副研究员，E-mail: wangxm@shu.edu.cn

Reference：

[1]杨育林, 祖大磊, 黄世军. 自润滑关节轴承现状及发展[J]. 轴承, 2009, (1):58-61,65.

Yang Y L, Zu D L, Huang S J. Status and development of self-lubricating spherical plain bearings[J]. Bearing, 2009, (1):58-61,65.

[2]沈雪瑾, 曹磊, 陈有光,等. 织物衬垫自润滑关节轴承的研究现状与展望[J]. 轴承, 2009, (3):57-61.

Shen X J, Cao L, Chen Y G, et al. Research status and prospect of spherical plain bearings with serf-lubricating fabric liner[J]. Bearing, 2009, (3):57-61.

[3]魏立保, 陈有光. 自润滑关节轴承的研制与应用[J]. 轴承, 2008, (5):8-10.

Wei L B, Chen Y G. Study and application on self-lubrication spherical plain bearing[J]. Bearing, 2008, (5):8-10.

[4]何两加. T型自润滑关节轴承介绍[J]. 机械工程师, 2011, (4):127-128.

He L J. T type self-lubricating spherical plain bearings[J]. Mechanical Engineer, 2011, (4):127-128.

[5]陈继刚, 杨育林, 夏振伟,等. 整体型外圈关节轴承成形技术现状及发展趋势[J]. 轴承, 2013, (9):58-62.

Chen J G, Yang Y L, Xia Z W, et al. Current status and development trends of forming technology for spherical plain bearing with one piece outer ring[J]. Bearing, 2013, (9):58-62.

[6]Yang Y, Huang S, Ma C, et al. Study on new neck forming process for spherical plain bearing and optimum of the necking force[A]. Wase International Conference on Information Engineering [C]. Beidaihe: IEEE, 2010.

[7]Wang X, Lyu S, Yang C. Numerical investigation on press forming of self-lubricating spherical plain bearings[J]. International Journal of Materials and Product Technology, 2013, 47(1/2/3/4):46-62.

[8]Woodhead J, Booker J. Modelling of nosing for the assembly of aerospace bearings[J]. Experimental and Applied Mechanics, 2013, 4: 327-337.

[9]吴连平, 杨晓翔. 基于神经网络与遗传算法的关节轴承挤压模具优化[J]. 中国机械工程, 2015, 26(10):1351-1355.

Wu L P, Yang X X. Optimization of extrusion die of spherical plain bearings based on BP neural network and GA algorithm[J]. China Mechanical Engineering, 2015, 26(10): 1351-1355.

[10]上海市科学技术交流站组织. 正交试验设计法:多因素的试验方法[M]. 北京: 人民出版社, 1975.

Organization and Compilation of Shanghai Science and Technology Exchange Station. Orthogonal Experimental Design Method: Multi-factor Experimental Method [M]. Beijing: People′s Publishing House, 1975.

[11]廖永平, 严擎宇. 正交试验法在机械工业中的应用[M]. 北京: 中国农业机械出版社, 1984.

Liao Y P, Yan Q Y. Application of Orthogonal Test Method in Machinery Industry [M]. Beijing: China Agricultural Machinery Press, 1984.

[12]陆鸿. 正交试验设计[J]. 河南预防医学杂志, 1999, 10(2):124-126.

Lu H, Orthogonal experimental design [J]. Henan Journal of Preventive Medicine, 1999, 10(2): 124-126.

[13]SAE AS81819—2010，Bearing, plain (self-aligning, sleeve and thrust), self-lubricating, high speed-oscillation, general specification for[S].

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