加(jia)(jia)工(gong)(gong)(gong)(gong)機理的(de)(de)(de)影響分析是(shi)近(jin)年來新(xin)技術(shu)、新(xin)設備不(bu)斷涌現(xian)，精(jing)(jing)(jing)密加(jia)(jia)工(gong)(gong)(gong)(gong)也應(ying)不(bu)斷加(jia)(jia)大研究力度(du)，探索新(xin)的(de)(de)(de)加(jia)(jia)工(gong)(gong)(gong)(gong)方式(shi)。 從傳統(tong)加(jia)(jia)工(gong)(gong)(gong)(gong)方面來說(shuo)，金剛石刀具(ju)(ju)的(de)(de)(de)超(chao)精(jing)(jing)(jing)密加(jia)(jia)工(gong)(gong)(gong)(gong)、精(jing)(jing)(jing)密高(gao)速(su)加(jia)(jia)工(gong)(gong)(gong)(gong)、精(jing)(jing)(jing)密研磨帶磨削、磨料加(jia)(jia)工(gong)(gong)(gong)(gong)等已經取得(de)了很(hen)好的(de)(de)(de)效果； 從非傳統(tong)加(jia)(jia)工(gong)(gong)(gong)(gong)方面來說(shuo)，激(ji)光束(shu)、電子束(shu)及離(li)子束(shu)等多(duo)種(zhong)高(gao)能束(shu)精(jing)(jing)(jing)密加(jia)(jia)工(gong)(gong)(gong)(gong)、超(chao)聲波加(jia)(jia)工(gong)(gong)(gong)(gong)、電火花加(jia)(jia)工(gong)(gong)(gong)(gong)及電化(hua)學加(jia)(jia)工(gong)(gong)(gong)(gong)等具(ju)(ju)有明顯優勢，特別是(shi)組合加(jia)(jia)工(gong)(gong)(gong)(gong)方式(shi)的(de)(de)(de)應(ying)用，如超(chao)聲波珩磨、電解研磨等技術(shu)其突(tu)破性發展的(de)(de)(de)意義(yi)在于，主要(yao)表(biao)現(xian)在去(qu)除加(jia)(jia)工(gong)(gong)(gong)(gong)的(de)(de)(de)明確提出(chu)，加(jia)(jia)工(gong)(gong)(gong)(gong)與變形加(jia)(jia)工(gong)(gong)(gong)(gong)的(de)(de)(de)有效融合，特別是(shi)疊(die)加(jia)(jia)加(jia)(jia)工(gong)(gong)(gong)(gong)快速(su)成形的(de)(de)(de)優勢，對加(jia)(jia)工(gong)(gong)(gong)(gong)技術(shu)的(de)(de)(de)發展具(ju)(ju)有十分重要(yao)的(de)(de)(de)促進作用。