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气雾混合介质对放电烧蚀成形加工的影响

DOI: 10.3969/j.issn.1006-7043.201312029

Keywords: 电火花加工, 气雾介质, 放电烧蚀, 系统设计, 机理分析

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Abstract:

为了提高电火花加工的工作效率,以氧气与自来水通过雾化后产生的气雾作为放电介质,进行电火花放电烧蚀成形加工实验,分析了气雾混合介质条件下电火花放电烧蚀加工极间雾滴之间的“串联放电”特性和雾滴对极间放电烧蚀能量的分散作用.通过与纯氧中的放电烧蚀加工及内冲液电火花加工的试验对比,结果表明:气雾混合介质下的烧蚀加工,材料去除率较纯氧气中烧蚀加工提高近20%,较内冲液电火花加工提高约4.6倍,电极质量相对损耗较内冲液电火花加工降低近65%,且成型精度较高,楞角倒圆半径较内冲液电火花加工减小约35%.

 References

[1]  刘志东. 特种加工[M]. 北京: 北京大学出版社, 2012: 16-26.
[2]  KUNIEDA M, YOSHIDA M. Electrical discharge machining in gas[J]. Annals of the CIRP, 1997, 46(1): 143-146.
[3]  李立青,王振龙,赵万生.气体放电加工机理分析[J].哈尔滨工业大学学报, 2004, 36(3): 359-362.LI Liqing, WANG Zhenlong, ZHAO Wansheng. Mechanism analysis of electrical discharge machining in gas[J]. Journal of Harbin Institute of Technology, 2004, 36(3): 359-362.
[4]  TANIMURA T, ISUZAGAWA K, FUJITA I, et al. 雾状工作介质中进行放电加工的进展[C] //国际电加工新技术 ISEM-9 论文选编. 北京, 中国, 1991: 197-203.TANIMURA T, ISUZAGAWA K, FUJITA I, et al.Progress of the mist working medium discharge machining[C] //International Electrical New Processing Technology ISEM-9 selected papers. Beijing, China, 1991: 197-203.
[5]  顾琳, 赵万生, 张志华,等. 喷雾电火花铣削加工及其机理的分析[J]. 电加工与模具, 2006(2): 1-4.GU Lin, ZHAO Wansheng, ZHANG Zhihua, et al. Mist-jetting-ED-milling and its mechanism[J]. Electromachining and Mould, 2006(2): 1-4.
[6]  刘志东. 放电诱导可控烧蚀高效加工典型工艺方法[J]. 电加工与模具, 2012(1): 1-6.LIU Zhidong. Series typical efficient machining methods of controllable burning by discharge-induced[J]. Electromachining and Mould, 2012 (1): 1-6.
[7]  许俊,刘志东, 徐安阳,等.气液混合功能电极电火花诱导烧蚀高效铣削研究[J]. 电加工与模具, 2013(2): 16-20.XU Jun,LIU Zhidong,XU Anyang, et al. Study on high-efficient spark-induced ablation milling by gas-liquid mixture function electrode[J]. Electromachining and Mould, 2013(2): 16-20.
[8]  陈文安,刘志东,王祥志,等.放电诱导可控烧蚀及电火花修整成形加工基础研究[J].中国机械工程, 2013, 24(13): 1777-1782.CHEN Wenan, LIU Zhi Dong, WANG Xiangzhi, et al. Fundamental study of forming by controllable spark-induced combustion and EDM finishing[J]. Chinese Mechanical Engineering, 2013, 24(13): 1777-1782.
[9]  高阳,郭常宁,倪扬. 放电间隙与 EDM 加工特性的研究[C] //2007年中国机械工程学会年会论文集,北京,中国, 2007: 44-47.GAO Yang, GUO Changning, NI Yang. Study on the discharge gap and EDM machining characteristics[C] //Proceedings in the Chinese Mechanical Engineering Society Annual Meeting. Beijing, China,2007: 44-47.
[10]  安庆龙.低温喷雾射流冷却技术及其在钛合金机械加工中的应用[D]. 南京: 南京航空航天大学, 2006: 23-35.AN Qinglong. Cryogenic mist jet impinging cooling and its application in machining of titanium alloy[D]. Nanjing: Nanjing University of Aeronautics and Astronautics, 2006: 23-35.
[11]  刘志东,凌加健,陈文安,等.放电诱导可控烧蚀及电火花修整成形加工试验研究[J].电加工与模具, 2013(5): 21-26.LIU Zhidong, LING Jiajian, CHEN Wen’an, et al. Experimental study on forming processing by controllable spark-induced combustion and EDM finishing[J]. Electromachining andMould, 2013(5): 21-26.
[12]  李利,顾琳,夏永高,等.内喷雾式电火花铣削加工的实验研究[J].上海交通大学学报, 2007, 41 (10): 1569-1572.LI Li, GU Lin, XIA Yongao, et al. Experimental study of mist-jetting electric discharge milling[J]. Journal of Shanghai Jiaotong University, 2007, 41(10): 1569-1572.
[13]  丹尼斯 E.工程师物理学[M]. 天津:天津科学技术出版社, 1983: 186-208.
[14]  陈季丹.电解质物理学[M].北京:机械工业出版社,1982: 105-121.
[15]  夏永高.基于MQL的雾中电火花加工技术研究[D].上海:上海交通大学, 2008: 28-35.XIA Yonggao. Research of electrical discharge machining in mist based on MQL[D]. Shanghai: Shanghai Jiaotong University, 2008: 28-35.

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