TiAl 계 금속간화합물의 반응합성온도에 미치는 압출과 승온속도의 영향|RISS 상세보기

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RISS 인기검색어

TiAl 계 금속간화합물의 반응합성온도에 미치는 압출과 승온속도의 영향 = The Effect of Extrusion and Heating Rate on Reactive Synthesis Temperature of TiAl Base Intermetallic Compound

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https://www.riss.kr/link?id=A3233727

저자

박원구 (인하대학교공과대학금속공학과) ; 황선근 (인하대학교공과대학금속공학과) ; 김석준 (인하대학교공과대학금속공학과) ; 이태원 (인하대학교공과대학금속공학과) ; 이지환 (인하대학교공과대학금속공학과)
발행기관
대한금속재료학회(대한금속학회)
학술지명
대한금속·재료학회지(Korean Journal of Metals and Materials)
권호사항

Vol.33 No.10 [1995]
발행연도
1995
작성언어
Korean
KDC
436
등재정보
KCI등재
자료형태
학술저널
발행기관 URL
http://www.kim.or.kr
수록면

1277-1283(7쪽)
제공처
KISS
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다국어 초록 (Multilingual Abstract)

This paper was focused to investigate the effect of extrusion and heating rate on the reactive synthesis and the microstructure of products formed by reactive synthesis. The mixing of elemental powders was carried out by V-blender. The mixed powders were canned, sealed under vacuum, and were hot extruded at 450℃ under extrusion ratio 20 : 1. For powder extruded and cold compacted specimens, thermal analysis have been performed. In the effect of extrusion, the ignition temperature(T₁) of extruded specimens was found to be lower than that of cold compacted specimens. This may be due to breakdown of aluminium oxide films and elongation of mixed powders by hot plastic-deformation. In the effect of heating rate, both ignition temperature(T₁) and combustion temperature(T_c) was found to be increased with increasing heating rate. In particular, the ignition temperature of extruded specimens was below the melting temperature of aluminium under the heating rate of 40℃/min. Also, phase of reaction products depended upon combustion temperature. Microstructure of reaction products consists of unreacted titanium, TiAl and Ti₃Al. However, unreacted titanium was not observed after heat treatment.

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This paper was focused to investigate the effect of extrusion and heating rate on the reactive synthesis and the microstructure of products formed by reactive synthesis. The mixing of elemental powders was carried out by V-blender. The mixed powders w...

This paper was focused to investigate the effect of extrusion and heating rate on the reactive synthesis and the microstructure of products formed by reactive synthesis. The mixing of elemental powders was carried out by V-blender. The mixed powders were canned, sealed under vacuum, and were hot extruded at 450℃ under extrusion ratio 20 : 1. For powder extruded and cold compacted specimens, thermal analysis have been performed. In the effect of extrusion, the ignition temperature(T₁) of extruded specimens was found to be lower than that of cold compacted specimens. This may be due to breakdown of aluminium oxide films and elongation of mixed powders by hot plastic-deformation. In the effect of heating rate, both ignition temperature(T₁) and combustion temperature(T_c) was found to be increased with increasing heating rate. In particular, the ignition temperature of extruded specimens was below the melting temperature of aluminium under the heating rate of 40℃/min. Also, phase of reaction products depended upon combustion temperature. Microstructure of reaction products consists of unreacted titanium, TiAl and Ti₃Al. However, unreacted titanium was not observed after heat treatment.

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목차 (Table of Contents)

1. 서론
2. 실험방법
소재
제조공정
3. 결과 및 고찰

1. 서론
2. 실험방법
소재
제조공정
3. 결과 및 고찰
압출의 효과
승온속도의 영향
4. 결론

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