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金属结合剂金刚石多孔砂轮磨削温度的实验研究 被引量:3

Experimental study on grinding temperature of porous metal bonded diamond grinding wheels
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摘要 制备了不同孔隙率的金属结合剂细粒度和微粉金刚石多孔砂轮并进行了不同材质石材的磨削性能实验。采用热电偶测温法,研究了不同孔隙率、不同磨粒粒度的金属结合剂金刚石多孔砂轮对两种不同工件材料的磨削温度特性。实验结果表明,不同孔隙率、不同磨粒粒度的金属结合剂金刚石砂轮的磨削温度均随着转速及切深的增加而增加;细粒度的金属结合剂金刚石砂轮随着孔隙率的增大,磨削温度降低;而微粉金属结合剂金刚石砂轮则表现出和细粒度金属结合剂金刚石砂轮不同的特性,即孔隙率达到一定值时,随着孔隙率继续增大,磨削温度反而升高;同一孔隙率金属结合剂金刚石砂轮,细粒度金刚石砂轮的磨削温度要低于微粉金刚石砂轮的磨削温度。 In this paper,metal-bonded diamond wheels of different sized abrasive grain with different porosity were fabricated.Grinding experiments with these wheels on two kinds of granite were carried out under different grinding conditions.Grinding temperatures were measured with thermocouple.Experimental results revealed that the grinding temperature of metal-bonded diamond wheels of different sized abrasive grain with different porosity increased both with the rotating speed and the depth of cut of grinding wheels.The grinding temperatures of fine grain diamond grinding wheel decreased with the increase of its porosity.However,the relationship between the grinding temperatures of ultra fine grain diamond grinding wheel and its porosity differs from that of fine grain wheel.Its grinding temperature decreased first with the increase of its porosity to a certain amount and then increased with the further increase of its porosity.With the same porosity,the grinding temperature of metal-bonded fine grain diamond grinding wheels was lower than that of ultra fine grain diamond wheel.
作者 王少武 戴秋莲
机构地区 华侨大学石材加工研究重点实验室
出处 《金刚石与磨料磨具工程》 CAS 北大核心 2008年第1期22-26,30,共6页 Diamond & Abrasives Engineering
基金 福建省自然科学基金资助项目(E0410020)
关键词 孔隙率 金属结合剂 金刚石砂轮 磨削温度 细粒度 微粉 porosity metal-bond diamond grinding wheel grinding temperature fine grain ultra fine grain.
分类号 TQ164 [化学工程—高温制品工业]
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参考文献8

  • 1李菊丽 李长诗 郭健明.金属结合剂金刚石砂轮的研究进展.湖南有色金属,2002,(2).
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  • 3Ichida, Yoshio; Kishi, Kozo; Hasuda, Yuicbi. Study on one-pass mirror finish grinding technology of fine ceramics ( 1 st report). Development of new metal bonded fine grain diamond wheels and their apptication to mirror finish grinding [ J]. Journal of the Japan Society of Precision Engineering, 1992,58 ( 3 ) :463 - 470.
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同被引文献21

  • 1李迎,徐鸿钧,张幼桢.带通液孔的CBN开槽砂轮的试验研究[J].磨料磨具与磨削,1994(3):14-16. 被引量:3
  • 2廖翠姣,戴秋莲,骆灿彬.金属结合剂金刚石多孔砂轮的试验研究(Ⅰ)——造孔剂添加量的优化设计[J].金刚石与磨料磨具工程,2006,26(4):21-25. 被引量:15
  • 3王春华,关绍康,张锐.放电加工用金属结合剂碳化硅工具的研究[J].金刚石与磨料磨具工程,2006,26(5):83-86. 被引量:1
  • 4TRUONG S H, ISONOI Y, TANAKA T. Scanning electron microscopic study and mechanical property examination of a bond bridge: development of a porous metal bonded diamond wheel [ J ]. Journal of Materials Processing Technology, 1999, 89 (9) : 385 - 391.
  • 5Zheng H W, Gao H. A General Thermal Model for Grinding with Slotted or Segmented Wheel [ J ]. CIRP Annals, 1994,43 ( 1 ) : 287 - 290.
  • 6Nakayama K, Takaji J, Abe T. Grinding Wheel with HelicalGrooves--An Attempt to Improve the Grinding Performance []]. CIRP Annals,1997,25(1) : 133 - 138.
  • 7Iehida Yoshio, Kishi Kozo,Hasuda Yuichi. Study on one-pass mirror finish grinding technology of fine ceramics ( 1 st re- port). Development of new metal bonded fine grain diamond wheels and their application to mirror finish grinding [ J ]. Journal of the Japan Society of Precision Engineering, 1992, 58(3) :463 -470.
  • 8于北江.研制开槽砂轮的新设想[J].金刚石与唇料磨具工程,1992(4):37-38.
  • 9Onishi. Fabrication of new porous metal bonded grinding wheels by HIP method and machining electronic ceramics [ J ]. Jom-aal of Porous Materials, 1997,4 ( 3 ) : 187 - 198.
  • 10Hitoshi Onishi,Masaki Kobayashi,Atushi Takata,Kozo Ishizaki,Tokimune Shioura,Yoshihito Kondo,Akira Tukuda.Fabrication of New Porous Metal-Bonded Grinding Wheels by Hip Method and Machining Electronic Ceramics[J]. Journal of Porous Materials . 1997 (3)

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金刚石与磨料磨具工程
2008年 第1期

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