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The purpose of this study is to investigate the densification behavior and the corresponding microstructural evolution of tantalum and tantalum-tungsten alloy powders for explosively formed liners. The inherent inhomogeneous microstructures of tantalu...
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RISS 인기검색어
탄탈륨 및 탄탈륨-텅스텐 합금 분말의 소결성 및 미세조직 연구 = Sintering Behavior and Microstructures of Tantalum and Tantalum-Tungsten Alloys Powders
한글로보기https://www.riss.kr/link?id=A107097275
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2020
-
작성언어
Korean
- 주제어
-
등재정보
KCI등재
-
자료형태
학술저널
- 발행기관 URL
-
수록면
373-380(8쪽)
- DOI식별코드
- 제공처
- 소장기관
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다국어 초록 (Multilingual Abstract)
The purpose of this study is to investigate the densification behavior and the corresponding microstructural evolution of tantalum and tantalum-tungsten alloy powders for explosively formed liners. The inherent inhomogeneous microstructures of tantalum manufactured by an ingot metallurgy might degrade the capability of the warhead.
Therefore, to overcome such drawbacks, powder metallurgy was incorporated into the near-net shape process in this study. Spark plasma-sintered tantalum and its alloys with finer particle sizes exhibited higher densities and lower grain sizes. However, they were contaminated from the graphite mold during sintering. Higher compaction pressures in die and isostatic compaction techniques also enhanced the sinterability of the tantalum powders; however, a full densification could not be achieved. On the other hand, the powders exhibited full densification after being subjected to hot isostatic pressing over two times. Consequently, it was found that the hot isostatic-pressed tantalum might exhibit a lower grain size and a higher density as compared to those obtained in previous studies.
Therefore, to overcome such drawbacks, powder metallurgy was incorporated into the near-net shape process in this study. Spark plasma-sintered tantalum and its alloys with finer particle sizes exhibited higher densities and lower grain sizes. However, they were contaminated from the graphite mold during sintering. Higher compaction pressures in die and isostatic compaction techniques also enhanced the sinterability of the tantalum powders; however, a full densification could not be achieved. On the other hand, the powders exhibited full densification after being subjected to hot isostatic pressing over two times. Consequently, it was found that the hot isostatic-pressed tantalum might exhibit a lower grain size and a higher density as compared to those obtained in previous studies.
The purpose of this study is to investigate the densification behavior and the corresponding microstructural evolution of tantalum and tantalum-tungsten alloy powders for explosively formed liners. The inherent inhomogeneous microstructures of tantalum manufactured by an ingot metallurgy might degrade the capability of the warhead.
Therefore, to overcome such drawbacks, powder metallurgy was incorporated into the near-net shape process in this study. Spark plasma-sintered tantalum and its alloys with finer particle sizes exhibited higher densities and lower grain sizes. However, they were contaminated from the graphite mold during sintering. Higher compaction pressures in die and isostatic compaction techniques also enhanced the sinterability of the tantalum powders; however, a full densification could not be achieved. On the other hand, the powders exhibited full densification after being subjected to hot isostatic pressing over two times. Consequently, it was found that the hot isostatic-pressed tantalum might exhibit a lower grain size and a higher density as compared to those obtained in previous studies.
참고문헌 (Reference)
1 S. Cardonne, 13 : 187-, 1995
2 Q. Xu, 45 : 447-, 2001
3 S. Yoo, 12 : 23-, 1999
4 J. Oh, 29 : 542-, 2013
5 J. House, Air Force Research Laboratory 2011
6 P. Flater, Air Force Research Laboratory 2007
7 J. House, Air Force Research Laboratory
8 H. Park, 1426 : 1371-, 2012
9 L. Zheng, 61 : 61-, 2014
10 "en.wikipedia.org/wiki/explosive formed penetrator"
1 S. Cardonne, 13 : 187-, 1995
2 Q. Xu, 45 : 447-, 2001
3 S. Yoo, 12 : 23-, 1999
4 J. Oh, 29 : 542-, 2013
5 J. House, Air Force Research Laboratory 2011
6 P. Flater, Air Force Research Laboratory 2007
7 J. House, Air Force Research Laboratory
8 H. Park, 1426 : 1371-, 2012
9 L. Zheng, 61 : 61-, 2014
10 "en.wikipedia.org/wiki/explosive formed penetrator"
11 J. Muller, "Tungsten and Refractory Metals" MPIF 573-, 1994
12 F. Funkler, "Tungsten and Refractory Metals" MPIF 531-, 1994
13 E. Faccini, "Tantalum" Minerals, Metals & Materials Society 73-, 1996
14 J. Muller, "Tantalum" Minerals, Metals &Materials Society 301-, 1996
15 S. Bingert, "Tantalum" Minerals, Metals & Materials Society 95-, 1996
16 이지혜, "Kinetic Spray 공정을 이용한 벌크형 탄탈륨 소재의 제조및 미세조직/물성" 한국분말야금학회 23 (23): 8-14, 2016
17 이지혜, "Kinetic Spray 공정으로 제조된 탄탈륨 코팅층의 열처리 분위기에 따른 미세조직 및 물성" 한국분말야금학회 22 (22): 32-38, 2015
18 W. Walters, "Fundamentals of shaped charges" John Wiley & Sons 1989
19 R. Fountaina, "Columbium and tantalum" John Wiley and Sons 198-, 1962
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