Computer Aided Design of Grinding Wheel for Drill Flute Production
Computer Aided Design of Grinding Wheel for Drill Flute Production
摘要
Twist drill flute profile design is necessary in order to determine the required grinding wheel profile for a flute production. An accurate drill flute profile design is generated for two-flute conical twist drills using analytical equations to generate a drill flute profile design needed for the production of twist drills with straight lips. The required grinding wheel profile for a flute production was expressed in digitized form as well as in terms of two curve-fitted circular arcs. The drill flute profile geometry can never be precisely generated when required grinding wheel profile is represented by two circular arcs and the generated flute profile is just a very good approximation of the design flute profile. A CAD (computer aided design) software has been developed using MATLAB to determine the required grinding wheel profile for generating a given drill flute profile design.
参考文献10
-
1Galloway, D. F. 1957. "Some Experiments on theInfluence of Various Factors on Drill Performance." Transactions of ASME 79:191-230.
-
2Fuji, S., and DeVries, M. F. 1970. "An Analysis of Drill Geometry for Optimum Drill Design by Computer, Part I-Drill Geometry Analysis." Journal of Engineering for Industry 92: 647-56.
-
3Fuji, S., and DeVries, M. F. 1970. "An Analysis of Drill Geometry for Optimum Drill Design by Computer, Part II-Computer Aided Design." Journal of Engineering for Industry 92: 657-66.
-
4Vijayaraghavan, A., and Dornfeld, D. 2007. "Automated Drill Modeling for Drilling Process Simulation." Transactions of ASME: Journal of Computing and Information Science in Engineering 7 (3): 276-82.
-
5Khyratsis, P., Bilalis, N., and Antonidis, A. 2009. "CAD Based Predictive Models of the Undeformed Chip Geometry in Drilling." World Academy of Science-Engineering and Technology 52: 318-24.
-
6Nikolcheva, G., Likov, I., and Stoyanov, K. 2012. "Computer Modeling of Twist Drill Shapened at Conical Surface." Machines, Technologies and Materials 12: 62-6.
-
7Kang, D., and Annarego, E. J. A. 2003. "Computer Aided Geometrical Analysis of the Fluting Operation for Twist Drill Design and Production. I Forward Analysis and Generated Flute Profile." Machining Science and Technology 7 (2): 221-48.
-
8Kang, D., and Armarego, E. J. A. 2003. "Computer Aided Geometrical Analysis of the Fluting Operation for Twist Drill Design and Production. II Backward Analysis, Wheel Profile and Simulation Studies." Machining Science and Technology 7 (2): 249-66.
-
9Zhu, J. 2011. "Machining Featured Based Geometric Modeling of Twist Drills." Master thesis, Concordia University.
-
10Chinese standard GB 6137,1985.
-
1Rony198610.歌手签名[J].当代体育(足球),2009(13):74-74.
-
2王泽龙,黄发灯,邱丹敏,傅毅霖,许晓惠.二维轮廓设计与运动控制系统设计与开发[J].价值工程,2017,36(8):94-95. 被引量:1
-
3日本发明会吹长笛的机器人[J].科学之友,2004(1):16-16.
-
4王帅,申潇.BCMCS在电信系统中的研究和原型实现[J].电信科学,2010,26(S2):232-242. 被引量:2
-
5肖乾,周新建.基于Pro/E实现凸轮机构的设计与运动仿真分析[J].煤矿机械,2006,27(8):76-78. 被引量:18
-
6肖乾,周新建.凸轮机构的计算机辅助设计与运动仿真分析[J].华东交通大学学报,2006,23(4):103-104. 被引量:10
-
7范劲松,安军,徐宗俊.用三次NURBS表示圆弧与整圆的算法研究[J].计算机辅助设计与图形学学报,1997,9(5):391-395. 被引量:23
-
8杭后俊,李汪根.有理三次Bezier曲线表示圆弧的一种实用方法[J].计算机工程与应用,2012,48(6):185-189. 被引量:4
-
9李书环.基于3D Studio MAX的盘形凸轮轮廓设计[J].CAD/CAM与制造业信息化,2005(12):34-35.
-
10邹小彤.基于分布式技术的交通大数据查询优化[J].电子技术与软件工程,2017(3):180-181.
