加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)機理的(de)(de)(de)(de)影響(xiang)分析是近年來(lai)�����新(xin)(xin)技術(shu)、新(xin)(xin)設備不斷(duan)(duan)涌(yong)現,精(jing)密(mi)(mi)(mi)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)也應不斷(duan)(duan)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)大研(yan)究力度,探索新(xin)(xin)的(de)(de)(de)(de)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)方式。 從(cong)傳(chuan)統加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)方面(mian)來(lai)說(shuo),金剛石刀具的(de)(de)(de)(de)超精(jing)密(mi)(�����mi)(mi)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)、精(jing)密(mi)(mi)(mi)高(gao)速(su)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)、精(jing)密(mi)(mi)(mi)研(yan)磨(mo)帶磨(mo)削、磨(mo)料加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)等已(yi)經取得了很好(hao)的(de)(de)(de)(de)效果; 從(cong)非(fei)傳(chuan)統加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)方面(mian)來(lai)說(shuo),激光(guang)束(shu)(shu)、電子(zi)束(shu)(shu)及離子(zi)束(shu)(shu)等多種高(gao)能束(shu)(shu)精(jing)密(mi)(mi)(mi)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)、超聲波加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)、電火花加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)及電化(hua)學加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)等具有(you)明顯優(you)勢(shi),特別是組合加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)方式的(de)(de)(de)(de)應用(yong),如超聲波珩磨(mo)、電解研(yan)磨(mo)等技術(shu)其突破性發展的(de)(de)(de)(de)意義(yi)在于,主要表現在去除(chu)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)的(de)(de)(de)(de)明確(que)提出(chu),加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)與變形加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)的(de)(de)(de)(de)有(you)效融合,特別是疊加(jia)(jia)(jia)(jia)(jia)(jia)(jia)加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)快速(su)成形的(de)(de)(de)(de)優(you)勢(shi),對加(jia)(jia)(jia)(jia)(jia)(jia)(jia)工(gong)(gong)(gong)技術(shu)的(de)(de)(de)(de)發展具有(you)十分重要的(de)(de)(de)(de)促(cu)進(jin)作用(yong)。
