金刚石与磨料磨具工程
金剛石與磨料磨具工程
금강석여마료마구공정
DIAMOND & ABRASIVES ENGINNERING
2014年
2期
44-47
,共4页
李文杰%肖冰%段端志%夏斯伟
李文傑%肖冰%段耑誌%夏斯偉
리문걸%초빙%단단지%하사위
Cu-Sn-Ti钎料%冶金结合%抗弯强度%金刚石锯片
Cu-Sn-Ti釬料%冶金結閤%抗彎彊度%金剛石鋸片
Cu-Sn-Ti천료%야금결합%항만강도%금강석거편
Cu-Sn-Ti alloy solder%metallurgical bonding%bending strength%diamond saw
采用Cu-Sn-Ti钎料利用氩气保护高频感应钎焊对金刚石磨粒进行预钎焊处理。采用热压烧结工艺制作常规金刚石锯片、镀钛金刚石锯片和磨粒预钎焊金刚石锯片,并进行对比切割实验。通过三点抗弯实验测试上述三种节块的强度,并使用扫描电镜分析预钎焊金刚石磨粒界面和锯片节块断口的微观组织结构。结果表明:预钎焊金刚石磨料界面处存在元素的扩散现象并形成化学结合,且 Cu-Sn-Ti 钎料对金刚石磨粒的热损伤小;预钎焊金刚石节块的抗弯强度高于镀钛金刚石节块和常规金刚石节块;钎焊金刚石锯片刀头中金刚石与胎体之间同样存在元素的扩散现象,胎体与金刚石磨粒形成化学冶金结合;相同加工条件下,预钎焊金刚石锯片的切削效率相比于镀钛金刚石锯片和常规金刚石锯片分别提高7%和18%。
採用Cu-Sn-Ti釬料利用氬氣保護高頻感應釬銲對金剛石磨粒進行預釬銲處理。採用熱壓燒結工藝製作常規金剛石鋸片、鍍鈦金剛石鋸片和磨粒預釬銲金剛石鋸片,併進行對比切割實驗。通過三點抗彎實驗測試上述三種節塊的彊度,併使用掃描電鏡分析預釬銲金剛石磨粒界麵和鋸片節塊斷口的微觀組織結構。結果錶明:預釬銲金剛石磨料界麵處存在元素的擴散現象併形成化學結閤,且 Cu-Sn-Ti 釬料對金剛石磨粒的熱損傷小;預釬銲金剛石節塊的抗彎彊度高于鍍鈦金剛石節塊和常規金剛石節塊;釬銲金剛石鋸片刀頭中金剛石與胎體之間同樣存在元素的擴散現象,胎體與金剛石磨粒形成化學冶金結閤;相同加工條件下,預釬銲金剛石鋸片的切削效率相比于鍍鈦金剛石鋸片和常規金剛石鋸片分彆提高7%和18%。
채용Cu-Sn-Ti천료이용아기보호고빈감응천한대금강석마립진행예천한처리。채용열압소결공예제작상규금강석거편、도태금강석거편화마립예천한금강석거편,병진행대비절할실험。통과삼점항만실험측시상술삼충절괴적강도,병사용소묘전경분석예천한금강석마립계면화거편절괴단구적미관조직결구。결과표명:예천한금강석마료계면처존재원소적확산현상병형성화학결합,차 Cu-Sn-Ti 천료대금강석마립적열손상소;예천한금강석절괴적항만강도고우도태금강석절괴화상규금강석절괴;천한금강석거편도두중금강석여태체지간동양존재원소적확산현상,태체여금강석마립형성화학야금결합;상동가공조건하,예천한금강석거편적절삭효솔상비우도태금강석거편화상규금강석거편분별제고7%화18%。
Based on high-frequency induction brazing technology with argon atmosphere protection brazing pretreatment was conducted with diamond grits using Cu-Sn-Ti alloy solder Conventional diamond saw Ti-coated diamond saw and pre-brazed diamond saw were made by powder metallurgy sintering technology and then conducted with a comparative cutting test Bending strengths of three chunks were tested by three-point bending experiments while pre-brazed diamonds'surface and micro-organization across section of diamond saw blade were analyzed by SEM The results showed that metallurgical bonding was established through a cross-diffusion in the interface of the pre-brazed diamond and Cu-Sn-Ti alloy solder caused smaller thermal damage And the bending strength of pre-brazed diamond saw blade was higher than that of Ti-coated diamond saw blade and conventional diamond saw blade Besides element cross-diffusion phenomenon occurred between metal matrix with diamond then metal matrix and diamond grits formed metallurgical bond Under the same processing conditions compared with those of Ti-coated diamond saw and conventional diamond saw the cutting efficiency of pre-brazed diamond saw increased by 7% and 1 8% respectively.