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펄스전류활성 소결에 의한 나노구조 TiN-AlN 복합재료 제조 및 기계적 특성
김원백 ( Won Baek Kim ),서창열 ( Chang Yul Suh ),노기민 ( Ki Min Roh ),임재원 ( Jae Won Lim ),심현보 ( Hyun Bo Shim ),박현국 ( Hyun Kuk Park ),손인진 ( In Jin Shon ) 대한금속재료학회(구 대한금속학회) 2012 대한금속·재료학회지 Vol.50 No.11
A dense nanostructured TiN-AlN composite was prepared from high-energy ball milled TiN-AlN mixture powders by pulsed current activated sintering (PCAS). A highly dense TiN-AlN bulk composite was obtained within 2 minutes at 1500℃ with the simultaneous application of 80 MPa pressure and pulsed current. The fine crystalline structure of the TiN-AlN mixture, which was obtained by high-energy milling, was effectively maintained during PCAS and resulted in the enhancement of the mechanical properties. The micro hardness and fracture toughness of TiN-AlN composite were 1780 kg/mm2 and 5 MPa.m1/2, respectively. The mechanical properties were higher than monolithic AlN or TiN.
기계적 합성된 분말로부터 펄스전류활성 소결에 의한 나노구조 Ti3Al-Al2O3 복합재료 제조 및 기계적 특성
손인진 ( In Jin Shon ),왕희지 ( Hee Ji Wang ),서창열 ( Chang Yul Suh ),조성욱 ( Sung Wook Cho ),김원백 ( Won Baek Kim ) 대한금속재료학회(구 대한금속학회) 2011 대한금속·재료학회지 Vol.49 No.5
Nano-powders of Ti3Al and 2(Al2O3) were synthesized from 3Ti(O2) and 5Al powders by high energy ball milling. A nanocrystalline Al2O3 reinforced composite was consolidated by pulsed current activated sintering within 2 minutes from mechanochemically synthesized powders of Al2O3 and Ti3Al. Nanocrystalline materials, have received much attention as advanced engineering materials due to their improved physical and mechanical properties. The relative density of the composite was 99.5%. The average obtained hardness and fracture toughness values were 1510 kg/mm2 and 9 MPa·m1/2, respectively.
기계적 합금 및 펄스전류 활성 소결에 의한 나노구조 TiCo 합금의 제조
손인진 ( In Jin Shon ),송하영 ( Ha Young Song ),조성욱 ( Sung Wook Cho ),김원백 ( Won Baek Kim ),서창열 ( Chang Yul Suh ) 대한금속재료학회 ( 구 대한금속학회 ) 2012 대한금속·재료학회지 Vol.50 No.1
Nanopowders of TiCo were synthesized from Ti and Co by high energy ball milling. Highly dense nanostructured TiCo compounds were consolidated at low temperature by pulsed current activated sintering within 3 minutes from the mechanical synthesis of the powders (TiCo) and horizontal milled Ti+Co powders under 100 Mpa pressure. This process allows very quick densification to near theoretical density and prohibits grain growth in nanostructured materials. The grain sizes of the TiCo compounds were calculated. Finally, the average hardness values of the nanostructured TiCo compounds were investigated.