[1]吕长飞,李郝林.外圆磨削砂轮形貌仿真与工件表面粗糙度预测[J].中国机械工程,2012,23(6):666-670.
Lü Changfei,Li Haolin.Simulation of Wheel Topography and Forecasting of Roughness in Cylindrical Grinding[J].China Mechanical Engineering,2012,23(6):666-670.
[2]Doman D A,Warkentin A,Bauer R.A Survey of Recent Grinding Wheel Topography Models[J].International Journal of Machine Tools & Manufacture,2006,46:343-352.
[3]贾妍,蔡兰蓉,胡德金.表面放电辅助修整金属基金刚石砂轮的温度场分析和放电参数优化[J].中国机械工程, 2008, 19(15): 1769-1773.
Jia Yan,Cai Lanrong,Hu Dejin.Temperature Field Analysis and Discharge Parameter Optimization for Surface Discharge Assisted Truing and Dressing of Metal Bonded Diamond Grinding Wheel[J].China Mechanical Engineering, 2008, 19(15): 1769-1773.
[4]陈锋,陈五一,陈志同.基于激光三角法的CBN杯形砂轮表面形貌检测[J].北京航空航天大学学报,2011,37(10):1321-1325.
Chen Feng,Chen Wuyi,Chen Zhitong.Laser Triangulation Based Measurement about the Surface 3D Topography of a Cup CBN Grinding Wheel[J].Journal of Beijing University of Aeronautics and Astronautics,2011,37(10):1321-1325.
[5]Malkin S,Grinding Technology:Theory and Applications of Machining with Abrasives[M].New York:Chichester Halsted Press,1989.
[6]Nakayama K,Shaw M C.Study of the Finished Produced in Surface Grinding[J].Proceedings of the Institution of Mechanical Engineers,1967,182:171-179.
[7]Mark M.ARIX a Major Advance in Diamond Segment Design[J].Industrial Diamond Review,2005,2:40-42.
[8]Chang H C,Wang J J.A Stochastic Grinding Force Model Considering Random Grit Distribution[J].International Journal of Machine Tools & Manufacture,2008,48:1335-1344.
[9]牛明远,潘秉锁,田永常.以锐角比率为测度的金刚石分布均匀性定量评价[J]. 金刚石与磨料磨具工程,2009(5):28-40.
Niu Mingyuan,Pan Bingsuo,Tian Yongchang.Quantitative Measurement of the Uniformity of Diamond Distribution by Acute Angle Ratio Method[J]. Diamond & Abrasives Engineering,2009,5:28-40.
[10]Pan B S,Wan B,Fang X H.Quantitative Evaluation of the Uniformity of Abrasive Distribution Based on Image Processing[J]. Advanced Materials Research,2010,135:314-318.
[11]冯仲科,郭清文,朱萍.Voronoi图-泰森多边形法在角规测树中的应用[J].林业资源管理,2006(3):44-47.
Feng Zhongke,Guo Qingwen,Zhu Ping.Application of the Voronoi Diagram-thiessen Polygon Method in Tree Surveying with Angle Gauges[J].Forest Resources Management,2006(3):44-47.
[12]Voronoi Z H,Techniques D.Lecture Notes,Computer Sciences VIII,RWTH Aachen (R/OL).(2012-12-10).http://elliptic-pde.googlecode.com/hg-history/ 0f06bbf886cbaf38556faef0e0a-57d953e36cf99/papers/ VoronoiDelaunay.pdf.
[13]Okabe A,Boots B,Sugihara K,et al.Spatial Tessellations:Concepts and Applications of Voronoi Diagrams[M].John Wiley & Sons.Second Edition.New York:Wiley Series in Probability and Statistics,2000.
[14]Duyckaerts C.Duyckaerts G.Voronoi Tessellation to Study the Numerical Density and the Spatial Distribution of Neurons[J]. Journal of Chemical Neuroanatomy,2000,20:83-92.
[15]王秦生.超硬材料及制品[M].郑州: 郑州大学出版社,2006.
[16]李远,花岗石超大切深锯切机理与技术研究[D].厦门:华侨大学,2004.
[17]Sung J C,Sung M.The Brazing of Diamond,International Journal of Refractory Metals and Hard Materials[J].Mining and Minerals Business,2009,27:382-393.
[18]Sung J M.Brazed Diamond Grid:a Revolutionary Design for Diamond Saws[J].Diamond and Related Materials, 1999, 8: 1540-1543. |