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TiC/Ni-Mo composites were prepared by one-step direct consolidation during a self-propagating high-temperature synthesis reaction and their corrosion and wear properties were studied. The composites reached 99.8% of theoretical density after the direc...
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RISS 인기검색어
Corrosion and wear properties of TiC/Ni-Mo composites produced by direct consolidation during a self-propagating high-temperature reaction
한글로보기https://www.riss.kr/link?id=E805114
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저자
Choi, Yong ; Bik, N.I ; Lee, J.S ; Hong, S.I. ; Hahn, Y.D
- 발행기관
-
발행연도
2001년
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작성언어
English
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KDC
410.000
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자료형태
한국연구재단(NRF)
-
수록면
982-986
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0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
TiC/Ni-Mo composites were prepared by one-step direct consolidation during a self-propagating high-temperature synthesis reaction and their corrosion and wear properties were studied. The composites reached 99.8% of theoretical density after the direct consolidation. Corrosion potentials and rates of the composites in a 50% NaOH solution were -982.7 mVSHE and 3.6×10^(-6) A cm^(-2)for TiC/50% Ni and -1074.8 mVSHE and 8.12×10^(-6) Acm^(-2) for TiC/46.5% Ni=3.5% Mo. respectively. Wear resistance determined by abrasive wear increased with molybdenum addition. Electron probe microanalysis revealed that δ-phase was formed around titanium carbide in the TiC/Ni-Mo composites. Transmission electron microscopy revealed that the dislocation density around the carbide in the composites wax high. The improved wear resistance was associated with increases of the interfacial bonding strength due to the formation of δ-phase and the high dislocation density around carbide due to the difference of thcrtnal expansion coefficient between carbide and matrix.
TiC/Ni-Mo composites were prepared by one-step direct consolidation during a self-propagating high-temperature synthesis reaction and their corrosion and wear properties were studied. The composites reached 99.8% of theoretical density after the direct consolidation. Corrosion potentials and rates of the composites in a 50% NaOH solution were -982.7 mVSHE and 3.6×10^(-6) A cm^(-2)for TiC/50% Ni and -1074.8 mVSHE and 8.12×10^(-6) Acm^(-2) for TiC/46.5% Ni=3.5% Mo. respectively. Wear resistance determined by abrasive wear increased with molybdenum addition. Electron probe microanalysis revealed that δ-phase was formed around titanium carbide in the TiC/Ni-Mo composites. Transmission electron microscopy revealed that the dislocation density around the carbide in the composites wax high. The improved wear resistance was associated with increases of the interfacial bonding strength due to the formation of δ-phase and the high dislocation density around carbide due to the difference of thcrtnal expansion coefficient between carbide and matrix.
목차 (Table of Contents)
- 1. Introduction
- 2. Experimental method
- 3. Results and discussion
- 4. Conclusions
- Acknowledgements
- 1. Introduction
- 2. Experimental method
- 3. Results and discussion
- 4. Conclusions
- Acknowledgements
- References
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