切触在侧铣加工叶轮直纹面上的应用

Application of contact on NC side milling of ruled surface with cylindrical cutter

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摘要提出用侧铣方法加工叶轮曲面的切触理论,按接触条件确定刀具圆柱表面与工件的相对位置,按切触条件确定刀具的相对姿态。介绍了叶轮抛物面叶片表面的加工计算算例,其加工计算方便,加工效率高。相比于端铣加工,可大幅度减小切削余量。 The contact theory and its application in the side milling of the ruled surface with cylindrical cutter is presented. The machining position and the posture is determined by the contact condition. An example of machining of impeller blade surface is introduced. The machining computation is convenient side milling , end milling reduces the and the machining efficiency is high. Compared with the cutting remains obviously.

作者刘鹄然刘全红

机构地区浙江科技学院机械与汽车工程学院

出处《浙江科技学院学报》 CAS 2013年第5期351-356,共6页 Journal of Zhejiang University of Science and Technology

关键词铣刀接触数控工艺 milling cutter contact NC machining

分类号 TG547 [金属学及工艺—金属切削加工及机床]

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参考文献9

1Jung J Y, Ahluwalia R S. NC tool path generation for 5-axis machining of free formed surfaces[J] Journal of Intelligent Manufacturing, 2005,16(1) : 115-127.
2Zhang W, Zhang Y F, Ge Q J. Interference-free tool path generation for 5-axis sculptured surface machining using rational B~zier motions of a flat-end cutter [J] International Journal of Production Research, 2005,43 (19):4103- 4124.
3You C F, Chu C H. Tool-path verification in five-axis machining of the sculptured surfaces.[J]. International Journal of Advanced Manufacturing Technology, 1997,13(4) :248-255.
4Hwang Y R, Liang C S. Cutting errors analysis for spindle-tilting 5-axis NC machining[J]. International Journal of Advanced Manufacturing Technology, 1998,14(6) : 399-405.
5Wang Y, Tang X W. Five-axis NC machining of sculptured surfaces[J]. International Journal of Advanced Manufacturing Technology, 1998,15 ( 1 ) : 37-14.
6Khan A W, Chen W A. Methodology for systematic geometric error compensation in five-axis machine tools[J]. International Journal of Advanced Manufacturing Technology, 2011,53 : 615-628.
7Chaves J, Poulachon G. Optimal strategy for finishing impeller blades using 5-axis machining[J] International Journal of Advanced Manufacturing Technology, 2012,58 (5/8) : 573-583.
8刘鹄然.等共轭曲率摆动凸轮传动机构设计原理[J].浙江科技学院学报,2013,25(3):190-193. 被引量：1
9刘鹄然.高阶密切滚动轴承[J].浙江科技学院学报,2012,24(4):294-296. 被引量：1

二级参考文献14

1Lee Leckseng,Linda Lee.Study for the Forming Principle of Logix Gear Tooth Profile and Its Mesh Performance[J].厦门大学学报（自然科学版）,2002,41(S1):91-92. 被引量：3
2张光辉,许洪斌,龙慧.分阶式双渐开线齿轮[J].机械工程学报,1995,31(6):47-52. 被引量：50
3成大先.机械设计图册[M].北京:化学工业出版社,2000..
4GradwellGML.经典弹性理论中的接触问题[M].范天佑,译.北京:北京理工大学出版社,1996.
5Di Puccio F. Alternative formulation of the theory of gearing[J]. Mechanism and Machine Theory,2005,34(3):45 50.
6Feng X Y, Wang A Q, Lee I. S, et al. Study for the forming principle of logix gear tooth profile and its mesh performance [J]. Journal of Xiamen University : Natural Science, 2002,26 ( S1 ) . 113 119.
7Gupta P K. Advanced Dynamics of Rolling Elements[M]. New York: Springer-Verlag Inc. , 1984.
8Chiu Y P. An analysis and prediction of lubricant film starvation in rolling contact systems [J]. ASLE Tran,1974, 17:22-25.
9李立,冯强,吴宝杰.汽车张紧轮轴承用新型润滑脂的试验分析[J].轴承,2008(6):33-35. 被引量：3
10张成宝,常宝臣.6008张紧轮的开发[J].哈尔滨轴承,2008,29(3):36-37. 被引量：1

1袁学炳.空间角度相同的多孔加工计算[J].二汽科技,1990(2):24-28.
2姜裕芳.在小转台上加工大圆弧向心孔的计算及编程[J].磨床与磨削,2000(2):46-48.
3刘鹄然.在五坐标三联动专用数控工具磨床上加工旋转锉的成形原理[J].刃具研究,1996(2):28-32.
4张永智,郭颖,张蒲忠.数控铣床在圆柱表面上加工等深度曲面[J].金属加工（冷加工）,2011(8):67-69.
5王志勇,董申,袁哲俊.端铣加工中刀具的热破损[J].机械,1991,18(3):6-8. 被引量：1
6李桂平.车削螺纹时常见故障及解决方法[J].职业,2008,0(7Z):109-109.
7张阳,陈健,王桂阳,孟宪宁.一种新的外圆磨削方法及装置[J].机械工程师,2000(7):19-19.
8张阳,陈健,王桂阳,孟宪宁.一种新的外圆磨削方法的研究[J].磨床与磨削,2000(3):48-48.
9张曙,张炳生,卫美红.回转工作台和圆周进给[J].制造技术与机床,2012(1):9-12. 被引量：2
10名词解释[J].制造技术与机床,2013(6):99-99.

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切触在侧铣加工叶轮直纹面上的应用

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