基于可拆卸设计的组合式可回收超硬磨料电镀砂轮
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摘要
根据可拆卸设计原理,提出超硬磨料电镀砂轮的可拆卸设计准则,并对组合式超硬磨料电镀砂轮的基体结构进行了设计。以电镀金刚石砂轮为例,进行组合式可回收超硬磨料电镀砂轮的制备。对砂轮磨料层的拆卸过程进行了介绍,并对磨料层进行了应力分析,同时给出了砂轮的回收流程。
According to the DFD principle, the DFD criteria of the abrasive wheel electroplated with super-hard abrasive material were proposed, and the basic structure of the combined type abrasive wheel electroplated with super-hard abrasive material was designed. Taking the electroplated diamond abrasive wheel as an example, the preparation of the combined-type recyclable abrasive wheel electroplated with super-hard abrasive material was introduced. The detaching process of the abrasive layer of the grinding wheel was introduced with a stress analysis of the abrasive layer while the recycling process of the abrasive wheel was given.
According to the DFD principle, the DFD criteria of the abrasive wheel electroplated with super-hard abrasive material were proposed, and the basic structure of the combined type abrasive wheel electroplated with super-hard abrasive material was designed. Taking the electroplated diamond abrasive wheel as an example, the preparation of the combined-type recyclable abrasive wheel electroplated with super-hard abrasive material was introduced. The detaching process of the abrasive layer of the grinding wheel was introduced with a stress analysis of the abrasive layer while the recycling process of the abrasive wheel was given.
引文
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[2]刘明耀,李克华,赵兴昊.中国CBN磨具的研发历程与技术发展趋势[J].金刚石与磨料磨具工程,2017,37(1):1-6.
[3]潘广银.陶瓷结合剂CBN砂轮在高效高精度磨削中的应用[J].上海机床,1992(4):17-20.
[4]OLSON D W.2008 Minerals Yearbook:Diamond,Industria[R].Washington:U.S.Department of the Interior,U.SGeological Survey,2010.
[5]SKURY A L D,BOBROVNITCHII G S,MONTEIRO S N,et al.Recovery of Synthetic Diamonds from Scrapped Sawblades[J].Separation and Purification Technology,2004,35(3):185-190.
[6]MESZAROS M,VADASDI K.Process and Equipment for Electrochemical Etching of Diamond-containing Co-WCTools and Recovery of Diamond from Used Steel Tools[J]International Journal of Refractory Metals and Hard Materials,1996,14(4):229-234.
[7]吕艳艳,穆保定,李要正.用碱液分解和水力分级回收树脂中的金刚石[J].无机盐工业,2017,49(1):49-51.
[8]刘志峰.绿色设计方法、技术及其应用[M].北京:国防工业出版社,2008.
[9]许彧青.绿色设计[M].北京:北京理工大学出版社,2007.
[10]胡坤.带式输送机绿色设计关键技术与应用研究[D].淮南:安徽理工大学,2012.
[11]卢志伟,张旭忠,魏明明.可拆卸式气浮导轨滑架组件的设计与分析[J].机械制造,2015,53(8):12-15.
[12]覃奇贤,刘淑兰.镀层与基体的结合力[J].电镀与精饰,2010,32(1):34-36.
[13]于爱兵,吴磊.可再制造的电镀金刚石砂轮结构设计[J].兵工学报,2013,34(5):620-626.
[14]邓训,赵元勤.材料力学[M].2版.武汉:武汉理工大学出版社,2012.
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