Research on Cutting Force of Ultrasonic Diamond Wire Saw 被引量：5

Research on Cutting Force of Ultrasonic Diamond Wire Saw

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摘要 Based on impulse and vibration machining theories,a mathematical model of cutting force for the electroplated diamond ultrasonic wire saw was established using superposition principle.The differences between the cutting forces with and without ultrasonic effect were analyzed theoretically and experimentally.The results indicate that the cutting force of diamond wire increases along with the spindle speed decrease and the lateral pressure increase.The force in ultrasonic vibration cutting is about 20% to 30% less than that in conventional cutting.Also,the cutting trajectory of single diamond grit in sawing process is simulated,and the reason that the ultrasonic vibration can reduce the cutting force is explained further. Based on impulse and vibration machining theories, a mathematical model of cutting force for the eleetroplated diamond ultrasonic wire saw was established using superposition principle. The differences between the cutting forces with and without ultrasonic effect were analyzed theoretically and experimentally. The results indicate that the cutting force of di- amond wire increases along with the spindle speed decrease and the lateral pressure increase. The force in uhrasonic vibration cutting is about 20% to 30% less than that in conventional cutting. Also, the cutting trajectory of single diamond grit in sawing process is simulated, and the reason that the ultrasonic vibration can reduce the cutting force is explained further.

作者张辽远李鑫

机构地区 Department of Mechanical Engineering

出处《Defence Technology（防务技术）》 SCIE EI CAS 2010年第2期114-118,共5页 Defence Technology

基金 Sponsored by Liaoning Innovation Team Fundation(2008T164)

关键词 machinofature technique and equipment mechanics manufacturing process hard and brittle material electroplated diamond wire saw ultrasonic machining machinofature technique and equipment mechanics manufacturing process hard and brittle material electroplated diamond wire saw ultrasonic machining

分类号 TG501.3 [金属学及工艺—金属切削加工及机床]

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参考文献10

1WEI Xin.Mechanism of granite sawing and research of sawing process[]..1997 被引量：1
2BO Yu-Chan,XU Hong-Jun.Identification of granite sa-wing status and evaluation of control strategies[].Stone.1999 被引量：1
3GAO Wei.Manufacturing of wire saw with ring electro-plated diamond,cutting technology and research of mech-anism[]..2002 被引量：1
4MENG Jian-feng.Research on machined technology and machined quality of endless electroplated diamond wire saw[]..2006 被引量：1
5ZHAO Bo.Ultrasonic honing system of hard and brittle materials and characteristics of ductile cutting[]..1999 被引量：1
6Uhimann E.Surface formation in feed grinding of ad-vanced ceramics with and without ultrasonic assistance[].Annals of the CIRP.1998 被引量：1
7Qu W,Wang K,Miller M H.Using vibration-assis-ted grinding to reduce subsurface damage[].Journalof the International Societies for Precision Engineeringand Nanotechnology.2000 被引量：1
8W.I.Clark,,A.J.Shih,Hardin.Fixed abrasive diamond wire machining part-Ⅱ: experiment design and results[].International Journal of Machine Tools and Manufacture.2003 被引量：1
9W.I.Clark,,A.J.Shih,Hardin.Fixed abrasive diamond wire machining part-Ⅱ: experiment design and results[].International Journal of Machine Tools and Manufacture.2003 被引量：1
10Malkin S,Hwang T W.Grinding mechanisms for ceramics[].Annals of the CIRP.1996 被引量：1

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1陈秀芳,李娟,马德营,胡小波,徐现刚,王继扬,蒋民华.金刚石线锯切割大直径SiC单晶[J].功能材料,2005,36(10):1575-1577. 被引量：19
2孟剑峰,李剑峰,葛培琪,韩云鹏.锯切力作用下电镀金刚石线锯随机振动研究[J].中国机械工程,2005,16(24):2231-2234. 被引量：7
3张辽远,贾春德,吕玉山.电镀金刚石线锯的超声纵振动切割加工方法[J].兵工学报,2006,27(5):899-902. 被引量：14
4Roland Madar, Silicon carbide in contention [ J ]. Nature, 2004, 430 (26) : 974-975. 被引量：1
5Roussel et al. , SiC 2010, 2009-2019:10 year market project[ OL]. http://www, yole. fr, 2010. 被引量：1
6魏听.花岗岩锯切机理及可锯切加工性的研究[D].广州:华南理工大学,1997:3-7. 被引量：1
7Craig W Hardin, Jtm Qu, Albert J Shih. Fixed Abrasive Diamond Wire Saw Slicing of Single Crystal Silicon Carbide Wafers [ J ]. Materials and manufacturing processes, 2004,19 ( 2 ) : 355-367. 被引量：1
8Chiba y, Tani Y, Enomoto T, et al. Development of a high-speed manufacturing method for electroplated diamond wire tools [ J ]. Annals of the CIRP, 2003, 52 ( 1 ) :281-284. 被引量：1
9Clark, W. I. , Shih,A. J. , Lemaster, R. L. Fixed Abrasive diamond wire machining-part II: experiment design and resuhs [ J ]. International Journal of Machine Tools and Manufacture 2003, 43, 533-542. 被引量：1
10Clark, W. I. ; Shih, A. J. ; Hardin, C. W. ; Lemaster, R. L. ; McSpadden, S. B. Fixed abrasive diamond wire machining-part I: process monitoring and wire geometry and tension [ J ]. International Journal of Machine Tools and Manufacture, 2003, 43, 523-532. 被引量：1

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2彭少波,陈超.电镀金刚石线切割YAG晶体的失效机理研究[J].超硬材料工程,2015,27(5):13-17. 被引量：4
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8姜晨,高睿,姜臻禹,郝宇.光学玻璃超声振动维氏压痕中位裂纹的实验研究[J].光子学报,2019,48(7):1-8. 被引量：1
9李振宇,崔长彩,黄辉,徐西鹏.基于轮廓法的金刚石线锯整周三维表面形貌测量和评价[J].机械工程学报,2019,55(20):107-115. 被引量：5
10李伦,杨少东,李济顺,陈稳.SiC单晶加工参数优化及表面粗糙度预测[J].机械设计与制造,2020(9):149-152.

1Yuji NINOMIYA,Hisataka TANAKA,Masahiko SATO,Susumu OKAMURA,Kazuma TERASHIMA.Tool feed rate optimization for smoothening of cutting force in end milling[J].材料与冶金学报,2010,9(4):296-299.
2李文,朱泽琪.Monitoring Method for the Electrical Properties of Piezoelectric Transducer[J].Defence Technology（防务技术）,2012,8(3):188-192.
3董平,张鹏程,李瑞文.Numerical Simulation on Temperature and Stress Fields in Beryllium During Cutting Process[J].Journal of Shanghai Jiaotong university(Science),2011,16(3):329-332.
4Xu Shuqin (Institute of Material Science and Engineering,Taiyuan University of Technology) Michael (Technische Universitaet Muenchen,85747 Germany) Thomas Pyttel (ESI GmbH, Eschborn, 65760 Germany).FEM SIMULATION AND EXPERIMENTAL RESEARCH ON THE SHEET BLANKING[J].Chinese Journal of Mechanical Engineering,2001,14(3):254-258. 被引量：1
5BI QingZhen,WANG YuHan,ZHU LiMin & DING Han State Key Laboratory of Mechanical System and Vibration,School of Mechanical Engineering,Shanghai Jiaotong University,Shanghai 200240,China.Wholly smoothing cutter orientations for five-axis NC machining based on cutter contact point mesh[J].Science China(Technological Sciences),2010,53(5):1294-1303. 被引量：13
6宿志亮,Jiang Shan,Wang Xingji,Yan Yu.Force modeling for needle insertion into soft tissue based on mechanical properties and geometric parameters[J].High Technology Letters,2014,20(3):295-300. 被引量：1
7朱喜林,吴博达,武星星.Application of RBF Neural Network in OptimizingMachining Parameters[J].Journal of Shanghai University(English Edition),2004,8(A02):106-110.
8韩桂华,邵俊鹏,秦柏,董玉红.Hardware-in-loop simulation on hydrostatic thrust bearing worktable pose[J].Journal of Central South University,2008,15(S2):250-256. 被引量：1

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Research on Cutting Force of Ultrasonic Diamond Wire Saw 被引量：5

参考文献10

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