随着可加工陶瓷材料的研发与应用,可加工陶瓷材料的机械加工技术逐渐成为当今的研究热点之一.本文综述了可加工陶瓷在机械加工过程中的材料去除特性、刀具磨损、加工工艺及可加工性评价,内容涉及加工表面质量、去除机理、加工损伤、材料去除率、刀具参数、切削参数、表面粗糙度、冷却和可加工性综合评价,并提出了今后的研究发展方向和趋势.
参考文献
[1] | 周振君,刘家臣,扬正方,袁启明.可加工陶瓷研究现状[J].材料导报,2001(01):33-35,70. |
[2] | 王向东,乔冠军,金志浩.可加工陶瓷研究的新进展[J].材料导报,2001(04):26-29. |
[3] | 李永利,乔冠军,金志浩.可切削加工陶瓷材料研究进展[J].无机材料学报,2001(02):207-211. |
[4] | 王瑞刚,潘伟,蒋蒙宁,陈健,罗永明,孙瑞峰.可加工陶瓷及工程陶瓷加工技术现状及发展[J].硅酸盐通报,2001(03):27. |
[5] | 冯彩梅,王为民,傅正义.可加工陶瓷材料及其制造技术的研究进展[J].武汉理工大学学报,2004(05):35-37. |
[6] | 马新沛,李光新,沈莲,金志浩.一种新型云母玻璃陶瓷的切削行为与显微结构[J].无机材料学报,2004(01):48-52. |
[7] | A.B. Yu;L.J. Zhong;J.C. Liu;X.L. Tian .Machinability Evaluation of Ce-ZrO_2/CePO_4 Ceramics[J].Key engineering materials,2004(259/260):259-263. |
[8] | 邱世鹏,刘家臣,刘志锋,葛志平,于爱兵,李鸿祥.CePO4/Ce-ZrO2可加工陶瓷加工机理的研究[J].硅酸盐学报,2003(04):341-345. |
[9] | 于爱兵,马廉洁,刘家臣,杜海燕,于思远.可加工陶瓷材料ZrO2/CePO4钻削刀具的磨损[J].天津大学学报,2005(08):669-673. |
[10] | Sentoku E;Naka T .Machining performance for machinable ceramics (part 9):mechanism of crack propagation[J].Journal of the Japan Society of Powder and Powder Metallurgy,1995,42(02):249-252. |
[11] | Wang Ruigang;Pan Wei;Chen Jian;Jiang Mengning;Fang Minghao .Fabrication and characterization of machinable Si_3N_4/h-BN functionally graded materials[J].Materials Research Bulletin: An International Journal Reporting Research on Crystal Growth and Materials Preparation and Characterization,2002(7):1269-1277. |
[12] | Wang R G;Pan W;Chen J et al.Graded machinable Si3N4/h-BN and A12O3/LaPO4 ceramic composites[J].Materials & Design,2002,23:565-570. |
[13] | Wang RG.;Pan W.;Jiang MN.;Chen J.;Luo YM. .Investigation of the physical and mechanical properties of hot-pressed machinable Si3N4/h-BN composites and FGM[J].Materials Science & Engineering, B. Solid-State Materials for Advanced Technology,2002(3):261-268. |
[14] | Padture NP.;Xu HHK.;Lawn BR.;Evans CJ. .ENHANCED MACHINABILITY OF SILICON CARBIDE VIA MICROSTRUCTURAL DESIGN[J].Journal of the American Ceramic Society,1995(1):215-217. |
[15] | 李翠伟,汪长安,黄勇,赵世柯.Si3N4/BN层状复合陶瓷抗穿甲破坏实验研究[J].无机材料学报,2005(01):99-104. |
[16] | Grossman D G.Machining a machinable glass-ceramic[J].American Machinist,1978(05):139-142. |
[17] | Sentoku E;Fujimura Y;Satoh T .Machining performancefor machinable ceramics (part 2):milling[J].Journal of the Japan Society of Powder and Powder Metallurgy,1988,35(03):142-146. |
[18] | Davis JB.;Housley RM.;Morgan PED.;Marshall DB. .Machinable ceramics containing rare-earth phosphates[J].Journal of the American Ceramic Society,1998(8):2169-2175. |
[19] | 钟根京.可加工陶瓷的加工[J].航天工艺,1996(05):17-19. |
[20] | 马廉洁,于爱兵,韩建华,刘家臣.ZrO2/CePO4可加工陶瓷材料钻削加工的试验研究[J].硅酸盐通报,2004(05):106-108. |
[21] | 蔡培民.可加工陶瓷机加工工艺技术[J].江南航天科技,1994(01):61-70. |
[22] | M.A. Dabnun;M. S. J. Hashmi;M. A. El-Baradie .Surface roughness prediction model by design of experiments for turning machinable glass-ceramic (Macor)[J].Journal of Materials Processing Technology,2005(0):1289-1293. |
[23] | Schmidt C.;Weigl P. .Machinability of IPS Empress?2 Framework Ceramic: Potential for Ceramic Dentures[J].Journal of biomedical materials research, Part B. Applied biomaterials,2000(4):348-352. |
[24] | Sentoku E;Kumagai M;Fujimura Y .Machining performance for machinable ceramics (part 4):wet cutting[J].Journal of the Japan Society of Powder and Powder Metallurgy,1990,37(06):857-860. |
[25] | Boccaccini A R .Machinability and brittleness of glass-ceramics[J].Journal of Materials Processing Technology,1997,65:302-304. |
[26] | Ueda T;Sugita T .Evaluation of machinability of ceramics in grinding,honing and superfinishing[J].Journal of the Japan Society for Precision Engineering,1993,59(04):680-686. |
[27] | A.B. Yu;L.J. Zhong;X.L. Tian;F. Zou .Machinability Evaluation of Ce-ZrO_2/CePO_4 Ceramics with Digraph Method[J].Key engineering materials,2005(2):1079-1082. |
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