Journal of Guangdong University of Technology ›› 2018, Vol. 35 ›› Issue (06): 18-23,30.doi: 10.12052/gdutxb.180075

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Research Progress of Silicon Nitride Ceramic Ball Grinding and Polishing Technology

Xiao Xiao-lan1, Yan Qiu-sheng1, Lin Hua-tai1, Jiao Jing-hao1, Liu Jie1,2   

  1. 1. School of Electromechanical Engineering, Guangdong University of Technology, Guangzhou 510006, China;
    2. School of Mechanical and Electrical Engineering, Panyu Vocational and Technical College, Guangzhou 511483, China
  • Received:2018-04-28 Online:2018-11-23 Published:2018-09-18

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Abstract: Silicon nitride ceramic ball is the key element of bearings in heavy equipment, and the ultra-precision grinding and polishing quality of the balls is an important factor affecting the bearing performance and life. From the angle of the processing method, the research progress of ceramic ball grinding and polishing technology is summarized. The method of ultra-precision compound polishing for different silicon nitride ceramic balls is compared and analyzed. A new method of grinding and polishing, that is, the method of cluster magnetorheological polishing, is put forward. Preliminary tests show that by the method of 3 hours of polishing, silicon nitride ceramic ball surface roughness Ra can reach 5 nm, and sphericity is 0.11 to 0.22 μm.

Key words: silicon nitride ceramic ball, grinding, composite processing, clustered magnetorheological, polishing

CLC Number: 

  • TH709
[1] 袁巨龙, 张飞虎, 戴一帆, 等. 超精密加工领域科学技术发展研究[J]. 机械工程学报, 2010(15):161-177 YUAN J L, ZHANG F H, DAI Y F, et al. Research on the development of science and technology in ultra-precision machining[J]. Journal of mechanical engineering, 2010(15):161-177
[2] 张永乾, 陈志军, 孙永安, 等. 高精度陶瓷球研磨加工[J]. 轴承, 2002(3):8-11 ZHANG Y Q, CHEN Z J, SUN Y A, et al. High-precision ceramic ball grinding and processing[J]. Bearing, 2002(3):8-11
[3] GB/T 31703-2015, 陶瓷球轴承氮化硅球国家标准[S].北京:中华人民共和国标准化委员会, 中国标准出版社, 2015.
[4] ZHANG B, NAKAJIMA A. Dynamics of magnetic fluid support grinding of Si3N4 ceramic balls for ultraprecision bearings and its importance in spherical surface generation[J]. Precision Engineering, 2003, 27(1):1-8
[5] 吕冰海. 陶瓷球双转盘研磨方式及成球机理的研究[D]. 哈尔滨:哈尔滨工业大学机电工程学院, 2007.
[6] 黒部 利次, 山田 良穂, 森田 知之, 等. ポア自生パッドの開発とそれの研磨加工への応用:超微細ダイヤモンドによるぜい性材料の研磨[J]. 精密工学会誌論文集, 2004, 70(10):1281-1285
[7] 黄晨. 行星式精密球体高效研磨加工机理与工艺研究[D]. 杭州:浙江工业大学机械工程学院, 2008.
[8] 叶程. 摇摆式平面研磨方式下陶瓷球研磨技术的研究[D]. 杭州:浙江工业大学机械工程学院, 2012.
[9] 冯凯萍, 周兆忠, 倪成员, 等. 基于双平面方式下陶瓷球抛光均匀性研究[J]. 现代制造工程, 2016(3):7-12 FENG K P, ZHOU Z Z, NI C Y, et al. Research on the uniformity of ceramic ball polishing based on biplane method[J]. Modern manufacturing engineering, 2016(3):7-12
[10] 董晨晨, 陈微, 吕冰海, 等. 螺旋分离式V形槽的高精度球体加工方法[P]中国专利:CN104440457A. 2015.
[11] ZHOU F, YUAN J, LYU B, et al. Kinematics and trajectory in processing precision balls with eccentric plate and variable-radius V-groove[J]. International Journal of Advanced Manufacturing Technology, 2015, 84(9-12):1-12
[12] 叶伟文, 杨波, 王志刚, 等. 一种安全阀阀瓣磁流体研磨抛光机的设计及应用研究[J]. 广东化工, 2018, 45(4):146-147 YE W W, YANG B, WANG Z G, et al. A study of the design and application of a safety valve valve disc magnetic fluid abrasive polishing machine[J]. Guangdong Chemical, 2018, 45(4):146-147
[13] 纪宏波, 刘成刚. 高精度球体研磨加工技术的现状和发展[J]. 机械研究与应用, 2016, 29(3):205-207 JI H B, LIU C G. Status and development of high-precision ball grinding and processing technology[J]. Mechanical research and application, 2016, 29(3):205-207
[14] 朱从容, 吕冰海, 袁巨龙. 氮化硅陶瓷球化学机械抛光机理的研究[J]. 中国机械工程, 2010(10):1245-1249 ZHU C R, LYU B H, YUAN J L. Study on the mechanism of chemical mechanical polishing of silicon nitride ceramic balls[J]. China mechanical engineering, 2010(10):1245-1249
[15] 张占立, 张运瑞, 叶秀玲, 等. 氮化硅陶瓷滚子磁流变与超声波复合抛光技术[J]. 河南科技大学学报(自然科学版), 2014(4):13-17 ZHANG Z L, ZHANG Y R, YE X L, et al. Magneto-rheological and ultrasonic composite polishing technology of silicon nitride ceramics[J]. Journal of Henan University of science and technology, natural science edition, 2014(4):13-17
[16] MALKIN S, HWANG T W. Grinding Mechanisms for Ceramics[J]. CIRP Annals-Manufacturing Technology, 1996, 45(2):569-580
[17] 肖晓兰, 阎秋生, 潘继生, 等. 超精密磁流变复合抛光技术研究进展[J]. 广东工业大学学报, 2016, 33(6):28-33 XIAO X L, YAN Q S, PAN J S, et al. Advances in ultra-precision magnetorheological complex polishing technology[J]. Journal of Guangdong University of Technology, 2016, 33(6):28-33
[18] JIANG M, KOMANDURI R. Chemical Mechanical Polishing (CMP) in Magnetic Float Polishing (MFP) of Advanced Ceramic (Silicon Nitride) and Glass (Silicon Dioxide)[J]. Key Engineering Materials, 2001, 202-203(1):1-14
[19] RANJAN P, BALASUBRAMANIAM R, JAIN V K. Analysis of magnetorheological fluid behavior in chemo-mechanical magnetorheological finishing (CMMRF) process[J]. Precision Engineering, 2017, 49:122-135
[20] STOLARSKI T A, JISHENG E, GAWNE D T, et al. The effect of load and abrasive particle size on the material removal rate of silicon nitride artefacts[J]. Ceramics International, 1995, 21(5):355-366
[21] KANG J, HADFIELD M. Examination of the material removal mechanisms during the lapping process of advanced ceramic rolling elements[J]. Wear, 2005, 258(1):2-12
[22] CHILDS T H C, MAHMOOD S, YOON H J. Magnetic fluid grinding of ceramic balls[J]. Tribology International, 1995, 28(6):341-348
[23] 吕冰海, 袁巨龙, 戴勇. 氮化硅陶瓷球研磨过程中磨损形式的研究[J]. 摩擦学学报, 2008, 28(5):416-421. LYU B H, YUAN J L, DAI Y. Study on wear patterns of silicon nitride ceramic balls during grinding[J].Journal of Tribology, 2008, 28(5):416-421.
[24] 郁炜, 吕冰海, 袁巨龙. 精密陶瓷球体研磨过程中材料去除模型的研究[J]. 华中科技大学学报(自然科学版), 2014(2):74-76 YU W, LYU B H, YUAN J L. Research on the material removal model in the grinding process of precision ceramic ball[J]. Journal of Huazhong University of Science and Technology (Natural Science Edition), 2014(2):74-76
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