中国科技论文
中國科技論文
중국과기논문
Sciencepaper Online
2014年
8期
948-952
,共5页
刘其%阎秋生%潘继生%白振伟%路家斌
劉其%閻鞦生%潘繼生%白振偉%路傢斌
류기%염추생%반계생%백진위%로가빈
集群磁流变效应%研磨%6 H-SiC晶片%粒径匹配%工艺优化
集群磁流變效應%研磨%6 H-SiC晶片%粒徑匹配%工藝優化
집군자류변효응%연마%6 H-SiC정편%립경필배%공예우화
cluster magnetorheological effect%lapping%6 H-SiC wafer%diameter match%parameters optimization
为了研究不同种类磨粒与羰基铁粉的粒径匹配性对加工效果的影响规律,并优化磁感应强度、研磨压力、研磨盘转速和工件转速等工艺参数,采用集群磁流变研磨方法对6 H-SiC晶片进行了研磨试验。结果表明:当磨粒与羰基铁粉的粒径比约为1.5时加工效果较好;各工艺参数对6 H-SiC加工的材料去除率的影响由大到小依次为磁感应强度、研磨盘转速、研磨压力、工件转速,对表面粗糙度的影响由大到小依次为磁感应强度、研磨压力、工件转速、研磨盘转速;磁感应强度可以改变羰基铁粉的吸附力,从而改变对磨粒的把持程度,成为影响加工效果最显著的因素。优化后的工艺参数组合为:工件转速60 r·min-1;研磨盘逆向转速90 r·min-1;研磨压力70 kPa;磁感应强度0.012 T。在此优化条件下能获得最大的材料去除率(0.498μm· min-1)和较低的表面粗糙度(86.3 nm)。
為瞭研究不同種類磨粒與羰基鐵粉的粒徑匹配性對加工效果的影響規律,併優化磁感應彊度、研磨壓力、研磨盤轉速和工件轉速等工藝參數,採用集群磁流變研磨方法對6 H-SiC晶片進行瞭研磨試驗。結果錶明:噹磨粒與羰基鐵粉的粒徑比約為1.5時加工效果較好;各工藝參數對6 H-SiC加工的材料去除率的影響由大到小依次為磁感應彊度、研磨盤轉速、研磨壓力、工件轉速,對錶麵粗糙度的影響由大到小依次為磁感應彊度、研磨壓力、工件轉速、研磨盤轉速;磁感應彊度可以改變羰基鐵粉的吸附力,從而改變對磨粒的把持程度,成為影響加工效果最顯著的因素。優化後的工藝參數組閤為:工件轉速60 r·min-1;研磨盤逆嚮轉速90 r·min-1;研磨壓力70 kPa;磁感應彊度0.012 T。在此優化條件下能穫得最大的材料去除率(0.498μm· min-1)和較低的錶麵粗糙度(86.3 nm)。
위료연구불동충류마립여탄기철분적립경필배성대가공효과적영향규률,병우화자감응강도、연마압력、연마반전속화공건전속등공예삼수,채용집군자류변연마방법대6 H-SiC정편진행료연마시험。결과표명:당마립여탄기철분적립경비약위1.5시가공효과교호;각공예삼수대6 H-SiC가공적재료거제솔적영향유대도소의차위자감응강도、연마반전속、연마압력、공건전속,대표면조조도적영향유대도소의차위자감응강도、연마압력、공건전속、연마반전속;자감응강도가이개변탄기철분적흡부력,종이개변대마립적파지정도,성위영향가공효과최현저적인소。우화후적공예삼수조합위:공건전속60 r·min-1;연마반역향전속90 r·min-1;연마압력70 kPa;자감응강도0.012 T。재차우화조건하능획득최대적재료거제솔(0.498μm· min-1)화교저적표면조조도(86.3 nm)。
To study the diameter matching influence principle of particle size of abrasives and carbonyl iron powder to process,and optimize the parameters including of magnetic field strength,lapping pressure,plate speed and workpiece speed,the experiments based on cluster magnetorheological effect for single-crystal 6 H-SiC wafers were conducted.The experimental results showed that,the best process effect could be obtained when the diameter ratio of abrasive to carbonyl iron powder is about 1 .5 .The im-portant order from big to small of relevant factors that affect the lapping efficiency is magnetic field strength,plate speed,lapping pressure and workpiece speed.The order from big to small for surface roughness Ra value is magnetic field strength,lapping pressure,workpiece speed and plate speed.Due to the control to abrasives by carbonyl iron powder,magnetic field strength is the main factor of process effects.The optimized process parameters are workpiece speed of 60 r·min-1 ,plate reverse speed of 90 r ·min-1 ,lapping pressure of 70 kPa,magnetic field strength of 0.012 T.A maximum material removal rate of 0.498μm· min-1 and a surface roughness Ra value of 86.3 nm can be obtained under the optimized condition.
