논문상세정보
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- 저자 강명훈
- 형태사항 26 cm
- 일반주기 지도교수: 구양모
- 학위논문사항 포항공과대학교 철강대학원, 2015. 2, 철강학과, Thesis(doctoral)-
- 발행지 포항
- 언어 eng
- 출판년 2015
- 발행사항 포항공과대학교 철강대학원
- 주제어 hot ductility micro-segregation S segregation
유사주제 논문( 3)
박사
Mechanism of hot ductility loss and recovery in C-Mn/Nb-Microalloyed Steels : C-Mn 강 및 Nb 첨가 강에서의 고온 연성 저하 및 회복 거동
강명훈
2015년
'
Mechanism of hot ductility loss and recovery in C-Mn/Nb-Microalloyed Steels : C-Mn 강 및 Nb 첨가 강에서의 고온 연성 저하 및 회복 거동' 의 주제별 논문영향력
| 주제 |
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|---|---|---|
| 동일주제 총논문수 | 논문피인용 총횟수 | 주제별 논문영향력의 평균 |
| 6 | 0 |
0.0% |
주제별 논문영향력
' Mechanism of hot ductility loss and recovery in C-Mn/Nb-Microalloyed Steels : C-Mn 강 및 Nb 첨가 강에서의 고온 연성 저하 및 회복 거동' 의 참고문헌
-
Yasumoto, K., Maehara, Y., Ura, S. & Ohmori, Y. Effects of sulphur on hot ductility of low-carbon steel austenite. Mater Sci Tech-Lond 1, 111-116 (1985).
-
Thompson, J. X. D. X. B. L. X. S. X. a. R. G. The segregagation of sulfur and phosphorous in nickel-base alloy 718. Acta Metallurgica Sinica 10, 510-514 (1997).
-
Thomas, B., Brimacombe, J. & Samarasekera, I. The formation of panel cracks in steel ingots, A state of the art review, Part I: Hot ductility of steel. Transactions of the Iron and Steel Society 7, 7-20 (1986).
-
Tacikowski, M., Osinkolu, G. & Kobylanski, A. The synergetic effect of aluminium nitride precipitation and sulphur segregation on hot intergranular brittleness of high purity iron alloys. Acta Metallurgica 36, 995-1004 (1988).
-
Suzuki, H. G., Nishimura, S. & NAKAMURA, Y. Improvement of hot ductility of continuously cast carbon steels. Transactions of the Iron and Steel Institute of Japan 24, 54-59 (1984).
-
Seah, M. Adsorption-induced interface decohesion. Acta Metallurgica 28, 955-962 (1980).
-
Scheil, E. Bemerkungen zur schichtkristallbildung. Zeitschrift f r Metallkunde 34, 70-72 (1942).
-
Rice, J. R. & Wang, J.-S. Embrittlement of interfaces by solute segregation. Materials Science and Engineering: A 107, 23-40 (1989).
-
Porter, D. A.; Easterling, K. E. Phase transformations in metals andalloys; CRC Press, 1992.
-
Osinkolu, G., Tacikowski, M. & Kobylanski, A. Combined effect of AlN and sulphur on hot ductility of high purity iron-base alloys. Mater Sci Tech-Lond 1, 520-525 (1985).
-
Ola, O. T., Ojo, O. A. & Chaturvedi, M. C. Effect of deformation mode on hot ductility of a γ′ precipitation strengthened nickel-base superalloy. Materials Science and Engineering: A 585, 319-325 (2013).
-
Ohnaka, I. Mathematical analysis of solute redistribution during solidification with diffusion in solid phase. Transactions of the Iron and Steel Institute of Japan 26, 1045-1051 (1986).
-
Ohmori, Y. & Maehara, Y. Precipitation of NbC and hot ductility of austenitic stainless steels. Trans. Jpn. Inst. Met. 25, 160-167 (1984).
-
OUCHI, C. & MATSUMOTO, K. Hot ductility in Nb-bearing high-strength lowalloy steels. Transactions of the iron and steel institute of Japan 22, 181-189 (1982).
-
Nakajima, K., Zhang, H., Oikawa, K., Ohno, M. & J nsson, P. G. Methodological progress for computer simulation of solidification and casting. Isij Int 50, 1724-1734 (2010).
-
Nagata, M. T., Speer, J. G. & Matlock, D. K. Titanium nitride precipitation behavior in thin-slab cast high-strength low-alloy steels. Metallurgical and Materials Transactions A 33, 3099-3110 (2002).
-
Mizukami, H., Shirai, Y. & Yamanaka, A. Prediction of Tensile Strength and Elongation of High Alloy Steels during Solidification. Isij Int 46, 1040-1046 (2006).
-
Mintz, B., Yue, S. & Jonas, J. Hot ductility of steels and its relationship to the problem of transverse cracking during continuous casting. Int Mater Rev 36, 187- 220 (1991).
-
Mintz, B., J. Lewis, and J.J. Jonas. Importance of deformation induced ferrite and factors which control its formation. Materials Science and Technology 13(4), 379- 388 (1997).
-
Mintz, B., Cowley, A., Talian, C., Crowther, D. N. & Abushosha, R. Influence of P on hot ductility of high C, Al, and Nb containing steels. Mater Sci Tech-Lond 19, 184-188 (2003).
-
Mintz, B. The influence of composition on the hot ductility of steels and to the problem of transverse cracking. Isij Int 39, 833-855 (1999).
-
Mintz, B. & Cowley, A. Deformation induced ferrite and its influence on the elevated temperature tensile flow stress?elongation curves of plain C?Mn and Nb containing steels. Mater Sci Tech-Lond 22, 279-292 (2006).
-
Mintz, B. & Arrowsmith, J. Hot-ductility behaviour of C?Mn?Nb?Al steels and its relationship to crack propagation during the straightening of continuously cast strand. Metals Technology 6, 24-32 (1979).
-
McLean, D. Grain boundaries in metals. London, Oxford University Press. (1957).
-
Maehara, Y., Yasumoto, K., Tomono, H., Nagamichi, T. & Ohmori, Y. Surface cracking mechanism of continuously cast low carbon low alloy steel slabs. Mater Sci Tech-Lond 6, 793-806 (1990).
-
Maehara, Y. & Ohmori, Y. The precipitation of AlN and NbC and the hot ductility of low carbon steels. Materials science and engineering 62, 109-119 (1984).
-
Maehara, Y. & Nagamichi, T. Effects of sulphur on hot ductility of niobium containing low carbon steels during low strain rate deformation. Mater Sci Tech- Lond 7, 915-922 (1991).
-
MAEHARA, Y. Effect of carbon on hot ductility of as-cast low alloy steels. Trans. Iron Steel Inst. Jpn. 25, 1045-1052 (1985).
-
Lankford, W. Some considerations of strength and ductility in the continuous-casting process. Metallurgical Transactions 3, 1331-1357 (1972).
-
Laha, K., Kyono, J., Kishimoto, S. & Shinya, N. Beneficial effect of B segregation on creep cavitation in a type 347 austenitic stainless steel. Scripta Materialia 52, 675-678 (2005).
-
Kobayashi, S. Solute redistribution during solidification with diffusion in solid phase: a theoretical analysis. Journal of crystal growth 88, 87-96 (1988).
-
Kobayashi, H. Hot-ductility Recovery by Manganese Sulphide Precipitation in Low Manganese Mild Steel. Isij Int 31, 268-277 (1991).
-
Kizu, T. & Urabe, T. Hot ductility of sulfur-containing low manganese mild steels at high strain rate. Isij Int 49, 1424-1431 (2009).
-
Kang, M. H., Lee, J. S., Koo, Y. M., Kim, S. J. & Heo, N. H. Correlation Between MnS Precipitation, Sulfur Segregation Kinetics, and Hot Ductility in C-Mn Steel. Metallurgical and Materials Transactions A 45, 5295-5299 (2014).
-
Jiang, X., Chen, X. M., Song, S. H. & Shangguan, Y. J. Phosphorus-induced hot ductility enhancement of 1Cr?0.5Mo low alloy steel. Materials Science and Engineering: A 574, 46-53 (2013).
-
Ishida, K. Effect of grain size on grain boundary segregation. J Alloy Compd 235, 244-249 (1996).
-
Hornbogen, E. & Gr f, M. Fracture toughness of precipitation hardened alloys containing narrow soft zones at grain boundaries. Acta Metallurgica 25, 877-881 (1977).
-
Hirowo G. SUZUKI, S. N., Shigehiro YAMAGUCHI. Characteristics of Hot Ductility in Steels Subjected to the Melting and Solidification. Transactions of the Iron and Steel Institute of Japan 22, 48-56 (1982).
-
Heo, N.-H. Theory of nonequilibrium segregation in an Fe-Mn-Ni ternary alloy and a ductile-brittle-ductile transition. Acta materialia 44, 3015-3023 (1996).
-
Heo, N.-H. Nonequilibrium segregation in an Fe-Ni-Ti alloy and a ductile-brittleductile transition. Acta materialia 44, 1581-1589 (1996).
-
Heo, N. H., Shin, H. S. & Kim, S. J. Role of power ratio on ductility-dip cracking of Ni-Cr-Fe weld. Metals and Materials International 20, 129-133 (2014).
-
Heo, N. H., Chang, J. C., Yoo, K. B., Lee, J. K. & Kim, J. The mechanism of elevated temperature intergranular cracking in heat-resistant alloys. Materials Science and Engineering: A 528, 2678-2685 (2011).
-
Heo, N. H. Anomalous Sulfur Segregation Kinetics Governed by MnS Precipitation Reaction and {110} Annealing Texture Development in Al-free and 0.1% Mn- Added 3% Si-Fe Alloys. Isij Int 51, 280-283 (2011).
-
George, E. P., Kennedy, R. L. & Pope, D. P. Review of Trace Element Effects on High-Temperature Fracture of Fe- and Ni-Base Alloys. physica status solidi (a) 167, 313-333 (1998).
-
Foundation, A. S. & Cramb, A. W. The Making, Shaping and Treating of Steel: Casting Volume. (AISE Steel Foundation, 2003).
-
Flemings, M. C. Solidification processing. Metallurgical Transactions 5, 2121-2134 (1974).
-
Deprez, P., Bricout, J. & Oudin, J. Tensile test on in situ solidified notched specimens: effects of temperature history and strain rate on the hot ductility of Nb and Nb-V microalloyed steels. Materials Science and Engineering: A 168, 17-22 (1993).
-
Clyne, T., Wolf, M. & Kurz, W. The effect of melt composition on solidification cracking of steel, with particular reference to continuous casting. Metallurgical transactions B 13, 259-266 (1982).
-
Cho, K. C., Mun, D. J., Koo, Y. M. & Lee, J. S. Effect of niobium and titanium addition on the hot ductility of boron containing steel. Materials Science and Engineering: A 528, 3556-3561 (2011).
-
Cho, K. C., Mun, D. J., Kang, M. H., Lee, J. S., Park, J. K. & Koo, Y. M. Effect of thermal cycle and nitrogen content on the hot ductility of boron-bearing steel. Isij Int 50, 839-846 (2010).
-
Chen, X. M., Song, S. H., Sun, Z. C., Liu, S. J., Weng, L. Q. & Yuan, Z. X. Effect of microstructural features on the hot ductility of 2.25Cr?1Mo steel. Materials Science and Engineering: A 527, 2725-2732 (2010).
-
Carpenter, K. R., Dippenaar, R. & Killmore, C. R. Hot Ductility of Nb- and Ti- Bearing Microalloyed Steels and the Influence of Thermal History. Metallurgical and Materials Transactions A 40, 573-580 (2009).
-
Campbell, J. Castings. (Butterworth-Heinemann, 2003).
-
Briant, C. Grain boundary segregation of sulfur in iron. Acta Metallurgica 33, 1241- 1246 (1985).
-
Bower, T., Brody, H. & Flemings, M. Measurements of solute redistribution in dendritic solidification. Transaction of the Metallurgical Society of AIME 236, 624- 633 (1966).
-
?1. Kang, M. H., Lee, J. S., Koo, Y. M., Kim, S. J. & Heo, N. H. The Mechanism of Hot Ductility Loss and Recovery in Nb-Bearing Low Alloy Steels. Metallurgical and Materials Transactions A 45, 4302-4306 (2014).