Efficient automatic polishing process with a new compliant abrasive tool

被引:0
|
作者
Tsai, M.J. [1 ]
Huang, J.F. [1 ]
机构
[1] Robotic and Automatic Research Laboratory, Department of Mechanical Engineering, National Cheng Kung University, 1 University Road, Tainan, 70101, Taiwan
来源
International Journal of Advanced Manufacturing Technology | 2006年 / 30卷 / 9-10期
关键词
In this paper; an efficient polishing process is proposed for precision polishing tasks using a new compliant abrasive tool. The polishing process is conducted by a force-controllable five-axes robot. The polishing process comprises many steps using different abrasive grain sizes. For each process step; an optimal set of polishing parameters that can efficiently reduce surface roughness is determined by the Taguchi method. The relation between the surface roughness and the polishing efficiency for each set of optimal parameters can be fitted as an R-E curve. The efficiency of a polishing step decreases with the number of polishing cycles and the surface roughness reduces to an asymptote value. The automatic polishing scheduling is fulfilled by switching to a more efficient choice among these R-E curves until the desired surface roughness is reached. © Springer-Verlag London Limited 2006;
D O I
暂无
中图分类号
学科分类号
摘要
Journal article (JA)
引用
收藏
页码:817 / 827
相关论文
共 50 条
  • [21] An approach to the influence of flotative abrasive balls on polishing process
    Dai, Yong
    Deng, Qianfa
    Lv, Xun
    Yuan, Julong
    Yu, Xunjie
    ADVANCES IN MATERIALS MANUFACTURING SCIENCE AND TECHNOLOGY II, 2006, 532-533 : 393 - +
  • [22] Development of a new test method for evaluating the abrasivity of granite building stones during polishing process based on weight loss of abrasive tool
    Farhadian, Ali
    Ghasemi, Ebrahim
    Hoseinie, Seyed Hadi
    Bagherpour, Raheb
    CONSTRUCTION AND BUILDING MATERIALS, 2021, 303
  • [23] CHEMICAL PHENOMENA IN POLISHING GLASS BY A TOOL WITH BOUND ABRASIVE.
    Rogov, V.V.
    Apanasenko, V.E.
    Mikhnovskaya, A.N.
    Soviet journal of superhard materials, 1987, 9 (05): : 72 - 74
  • [24] RESEARCH ON POLISHING PROCESS OF A SPECIAL POLISHING MACHINE TOOL
    Wang, Guilian
    Wang, Yiqiang
    MACHINING SCIENCE AND TECHNOLOGY, 2009, 13 (01) : 106 - 121
  • [25] The investigation of tool and mechanism on non-abrasive cryogenic polishing
    Liu, XY
    Yu, DW
    Wang, LJ
    ADVANCES IN GRINDING AND ABRASIVE TECHNOLOGY XIII, 2006, 304-305 : 325 - 329
  • [26] Automatic programming tool for robotic polishing tasks
    Rosell, Jan
    Gratacos, Jaume
    Basanez, Luis
    Proceedings of the IEEE International Symposium on Assembly and Task Planning, 1999, : 250 - 255
  • [27] In-process tool condition monitoring in compliant abrasive belt grinding process using support vector machine and genetic algorithm
    Pandiyan, Vigneashwara
    Caesarendra, Wahyu
    Tjahjowidodo, Tegoeh
    Tan, Hock Hao
    JOURNAL OF MANUFACTURING PROCESSES, 2018, 31 : 199 - 213
  • [28] Pneumatic polishing of rice in a horizontal abrasive pipe: A new approach in rice polishing
    Prakash, Kumar Satya
    Someswararao, Ch
    Das, S. K.
    INNOVATIVE FOOD SCIENCE & EMERGING TECHNOLOGIES, 2014, 22 : 175 - 179
  • [29] Optimum Path Planning of Robotic Free Abrasive Polishing Process
    Han, Guangchao
    Sun, Ming
    INTELLIGENT ROBOTICS AND APPLICATIONS, PT II, PROCEEDINGS, 2008, 5315 : 906 - +
  • [30] PRESSABRADE ABRASIVE WAX POLISHING AND DE-BURRING PROCESS
    不详
    MACHINERY AND PRODUCTION ENGINEERING, 1973, 123 (3163): : 28 - 29
12345