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ID:50581574
大小:376.00 KB
页数:13页
时间:2020-03-12
《英语作业 电火花加工.ppt》由会员上传分享,免费在线阅读,更多相关内容在行业资料-天天文库。
1、讲解员:范壮壮ElectricaldischargemachiningContentTheconceptoftheEDM1TheprincipleoftheEDM2ThecharacteristicsoftheEDM3DevelopmentdirectionofEDM41TheconceptoftheEDMElectricaldischargemachiningisaspecialprocessingmethod,whichisusedtoresisttheelectricalerosioncausedbythepulsed
2、ischargebetweentwoelectrodesintheworkingfluid.Itisalsoknownasthedischargemachiningorelectricaletchingprocess,whichiscalledEDM电火花加工是利用浸在工作液中的两极间脉冲放电时产生的电蚀作用蚀除导电材料的特种加工方法,又称放电加工或电蚀加工,英文简称EDM2TheprincipleoftheEDMIninsulatingworkingfluid,generatingapulseofthesparkdisch
3、argebetweenthetoolandtheworkpiece,producinginstantaneoushightemperatureandthemeltingoffthesurfaceoftheworkpiece,toachievethepurposeofthemetalsurfaceisprocessed.在绝缘工作液中,工具与工件间产生脉冲性火花放电,产生局部瞬时高温,使工件熔化而抛离工件表面,达到金属表面被加工的目的。11电火花加工原理图Theworkpieceandtoolarerespectivelyco
4、nnectedwiththetwoinputendofpulsepowersupply,automaticfeedadjustmentdevicetomakethetoolandtheworkpieceoftenmaintainasmalldischargegap,whenthepulsevoltageisappliedtothetwopoles,inthatcaseandattherelativeminimumofagaporatthelowestinsulationstrengthwhichthedielectricis
5、punctured,thenproducingsparkanddischarge,whenintheinstantaneoushightemperature,asmallportionofthemetalofthetoolandtheworkpieceareremoved,eachformasmallpit.Nexttheprocessrepeatsandrepeats.工件和工具分别与脉冲电源的两输入端相连接。自动进给调节装置使工具和工件经常保持一个很小的放电间隙,当脉冲电压加到两极之间时,便在当时条件下相对某一间隙最小处
6、或绝缘强度最低处击穿介质,在该局部产生火花放电,瞬时高温时工具和工件表面都蚀除掉一小部分金属,各自形成一个小凹坑,接下来该过程重复发生。3ThecharacteristicsoftheEDM1、Forhigh-hardnessconductivematerialprocessing.2、Easytoprocessslender,thin,brittlepartsandcomplexparts3、Workpiecedeformationsmall,high-precisionmachining4,Easytorealizeth
7、eautomationofmachiningprocessadvantage⑴用于加工高硬度导电材料。⑵便于加工细长、薄、脆性零件和形状复杂的零件。⑶工件变形小,加工精度高。⑷易于实现加工过程的自动化1'Conductivematerialcanonlybeprocessed.2'Machiningaccuracyislimitedbythelossofelectrode3'Processingspeedisslow4'Theminimumradiusoffilletislimitedbythedischargegap.di
8、sadvantages⑴只能对导电材料进行加工。⑵加工精度受到电极损耗的限制。⑶加工速度慢。⑷最小圆角半径受到放电间隙的限制。4DevelopmentdirectionofEDMDevelopmentdirectionHigh-precisionAutomationIntellectual
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