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
5期
35-38
,共4页
王艳芝%梁宝岩%张旺玺%刘嘉霖
王豔芝%樑寶巖%張旺璽%劉嘉霖
왕염지%량보암%장왕새%류가림
碳化铝涂层%金刚石%自蔓延高温烧结
碳化鋁塗層%金剛石%自蔓延高溫燒結
탄화려도층%금강석%자만연고온소결
Al4 C3 coating%diamond%self-propagation high temperature sintering
采用 Ti/Al/石墨/金刚石粉体为原料,通过自蔓延高温烧结技术制备铝-碳化钛基结合金刚石复合材料,制备了 Al-TiC 结合剂金刚石复合材料,在金刚石表面合成了碳化铝涂层。采用 X 射线衍射(XRD)、扫描电镜(SEM)结合能谱仪(EDS)分析试样。研究结果表明:各种原料经自蔓延高温烧结后,产物主相为 Al、TiC 和金刚石。同时,在金刚石表面形成了致密的 Al4 C3涂层,当 Al 质量分数较高时(80%),Al4 C3涂层组织细小,约为1~5μm;随着 Al 质量分数减少至60%,Al4 C3涂层组织粒度逐渐变大,同时析出较多5~20μm 的花蕾状析出物。但是当 Al 质量分数较少(40%)时,金刚石易发生碎裂现象。
採用 Ti/Al/石墨/金剛石粉體為原料,通過自蔓延高溫燒結技術製備鋁-碳化鈦基結閤金剛石複閤材料,製備瞭 Al-TiC 結閤劑金剛石複閤材料,在金剛石錶麵閤成瞭碳化鋁塗層。採用 X 射線衍射(XRD)、掃描電鏡(SEM)結閤能譜儀(EDS)分析試樣。研究結果錶明:各種原料經自蔓延高溫燒結後,產物主相為 Al、TiC 和金剛石。同時,在金剛石錶麵形成瞭緻密的 Al4 C3塗層,噹 Al 質量分數較高時(80%),Al4 C3塗層組織細小,約為1~5μm;隨著 Al 質量分數減少至60%,Al4 C3塗層組織粒度逐漸變大,同時析齣較多5~20μm 的花蕾狀析齣物。但是噹 Al 質量分數較少(40%)時,金剛石易髮生碎裂現象。
채용 Ti/Al/석묵/금강석분체위원료,통과자만연고온소결기술제비려-탄화태기결합금강석복합재료,제비료 Al-TiC 결합제금강석복합재료,재금강석표면합성료탄화려도층。채용 X 사선연사(XRD)、소묘전경(SEM)결합능보의(EDS)분석시양。연구결과표명:각충원료경자만연고온소결후,산물주상위 Al、TiC 화금강석。동시,재금강석표면형성료치밀적 Al4 C3도층,당 Al 질량분수교고시(80%),Al4 C3도층조직세소,약위1~5μm;수착 Al 질량분수감소지60%,Al4 C3도층조직립도축점변대,동시석출교다5~20μm 적화뢰상석출물。단시당 Al 질량분수교소(40%)시,금강석역발생쇄렬현상。
Al-TiC boned diamond composites were fabricated by self-propagation high temperature sintering (SHS)from Ti/Al/Graphite/Diamond powders.The samples were analyzed by XRD,SEM with EDS.The results show that Al-TiC boned diamond composites were obtained by SHS.The main phases of the products were Al,TiC and diamond by SHS from every raw material.Meanwhile,the Al4 C3 coating was formed on the face of diamond.When Al mass fraction was higher (80%),Al4 C3 coating had a fine organization with a size of 1-5 μm.With Al mass fraction decreasing to 60%,Al4 C3 organization became coarse.Meanwhile,many bud shaped precipitates with a size of 5-20 μm formed on the coatings.But as Al mass fraction decreased to 40%, diamonds were easily broken because of its graphitization.