DIAMOND COMPOSITE SINTERED BODY AND MANUFACTURING METHOD THEREFOR: Fid-Bau Portal

DIAMOND COMPOSITE SINTERED BODY AND MANUFACTURING METHOD THEREFOR

GOTO TAKASHI / KATSUI HIROKAZU / HE ZHENHUA

PROBLEM TO BE SOLVED: To provide a diamond composite sintered body having suppressed graphitization of diamond, high in relative density and having high hardness, and a manufacturing method therefor.SOLUTION: A mixture powder by mixing a diamond/SiC composite powder made by coating amorphous SiC on a diamond particle surface by a chemical vapor deposition method and a binder consisting of SiOpowder is pulse energization compression sintered under a condition of compression pressure:80 to 120 MPa, temperature rise rate:80 to 130K/min, sintering temperature:1750 to 1900K, heating time:1 to 10 min to obtain a dense and high hardness diamond composite sintered body where graphitization of diamond is suppressed, with mass rate of diamond particle of 40 to 60 mass%, relative density of 90% or more and Vickers hardness of 30 GPa or more.

【課題】ダイヤモンドの黒鉛化が抑制され、相対密度が高く、高硬度を有するダイヤモンド複合焼結体及びその製造方法を提供する。【解決手段】ダイヤモンド粒子表面に化学蒸着法で非晶質ＳｉＣを被覆してダイヤモンド／ＳｉＣコンポジット粉末を作製し、これをＳｉＯ２粉末からなる結合材と混合した混合粉末を、加圧圧力：８０〜１２０ＭＰａ、昇温速度：８０〜１３０Ｋ／ｍｉｎ、焼結温度：１７５０〜１９００Ｋ、加熱時間：１〜１０ｍｉｎの条件でパルス通電加圧焼結することにより、ダイヤモンド粒子の質量割合が４０〜６０質量％、相対密度が９０％以上、ビッカース硬さが３０ＧＰａ以上であって、ダイヤモンドの黒鉛化が抑制された緻密かつ高硬度のダイヤモンド複合焼結体を得る。【選択図】図２

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