2003, Volume 5, Issue 8
Strategic Study of CAE >> 2003, Volume 5, Issue 8
Solidification Science and Technology and Materials
1. Northwestern Polytechnical University, Xi'an 710072, China
2. Harbin Institute of Technology, Harbin 150001, China
Next Previous
Abstract
In view of the development of the solidification science and practice, the present paper introduces the basic framework of the current solidified materials system and the basic principles in main developing stages of solidification science. On the basis of modern science and in connection with the modification and improvement of traditional materials, and the developing requirement of new materials, solidification science and technology, as part of the basic component of material science and engineering is carrying out in wide scale research and development in the fields of high-quality castings, directional solidification, crystal growth, rapid solidification, solidification of melt supercooling and other new type and extraordinary solidification processes aiming at precisely controlling structure, shape and properties of products. In this paper some of the above-mentioned work is also described and the developing trend is reviewed.
Figures
图1
图2
图3
图4
图5
图6
图7
图8
图9
图10
图11
图12
图13
图14
图15
图16
图17
图18
图19
图21
图23
图24
图25
References
[ 1 ] Kurz W, Ficher D J. Fundamentals of Solidification [M]. Switzerland: Trans Pub Ltd, 1998
[ 2 ] Fleming M C, Solidification Processing [ M ]. New York: McGraw-Hill Book Co, 1974
[ 3 ] Fleming M C, In Rapidly Solidified Metals[ M]. ed. Mehrabian R, Kear BH, Cohen M, [ s. 1. ], [s. n.] 1982, 291-300
[ 4 ] 胡汉起主编.金属凝固原理[M].北京:机械工业出版社,2000
[ 5 ] Chalmers B. Principles of Solidification [ M ]. New York: Wiley, 1966
[ 6 ] Turnbull D. Journal Physical Chemstry, 1962,66:609 [7 ]
[ 7 ] 姚连增.晶体生长基础[M].合肥:中国科学技术大 学出版社,1995
[ 8 ] 师昌绪主编.材料科学与技术百科全书[M].北京:中国大百科全书出版社,1995
[ 9 ] Mullins WW, Sckerka R F, J Appl Phy, 1964,35: 444
[10] Baker J C, Cahn J W. In Solidification, ASM, Metals Park, Ohio, 1971,23
[11] 周尧和,胡壮麒,介万奇.凝固技术[M].北京:机械 工业出版社,1998
[12] Jackson K A, Hunt J D. Trans Metall Soc. AIME 1966,236:1129
[13] Langer J, Muller-Krumbhaar. Acta Metall; 1978,26: 1681
[14] Lipton J, Kurz W, Trivedi R. Acta Metall, 1987, 35: 957
[15] Lipton J, Glicksman M, Kurz W. Metall Trans, 1987,18A:341
[16] Hones H. Rapid Solidification of Metals and Alloys [M]. The Inst Metallurgist, London, 1982
[17] Trivedi R, Kurz W. Acta Metall, 1986,34:1663
[18] Trivedi R, Magnin P, Kurz W. Acta Metall, 1987, 35:971
[19] Aziz M J J Appl Phys, 1982,53: 1158
[20] Boettinger W J. In Rapidly Solidified Amorphous Crystalline alloys[M]. ed. Kear, New York: Elsevier North Holland, 1982
[21] 朱高峰等.全球化时代的中国制造[M].北京:社会科学文献出版社,2003
[22] 柳百成,沈厚发.21世纪的材料成形加工技术与科 学[C].香山科学会议第184次学术讨论会交流材 料,1-9
[23] Kurz W, Trivedi R. In Solidification Processing, The Inst, Matals, 1988, 1 ~ 12
[24] 《高技术新材料要览》编委会编•高技术新材料要览 [M].北京:中国科学技术出版社,1993
[25] Fu Hengzhi, Geng Xingguo, Li Jiangguo, et al. J Mater Sci Technol, 1998, 14:9
[26] Guo Xiping, Fu Hengzhi, Sun Jiahua. Metall Mater Trans, 1997,28A:997
[27] 傅恒志,张军.中国科学技术前沿[M],北京:高等教 育出版社,1998,187
[28] Shangguan D K; Hunt J D, In Solidification Processing, The Inst, Metals, 1988, 206~209
[29] 傅恒志,等.金属学报,2002,38: 1127〜1132
[30] 傅恒志,等.中国有色金属学报,2003,13
[31] Izumi T, Shiohara Y. J Mater Res, 1992,7: 16~23
[32] Schmitz G. et al. J Mater Res. 1993,8: 2774~2779
[33] 陈绍楷,周廉,王克光,等.稀有金属材料与工程, 2002,31:129-134
[34] Waka Y, Nakaga N, et al. Nature V, 1997,389: 49 ~52
[35] 张克从,张乐惠.晶体生长科学与技术[M].北京: 科学出版社,1997
[36] 李恒德.材料科学与工程科技前沿[M].济南:山东 科学技术出版社,2002
[37] 介万奇.中国基础科学•科学前沿[M].北京:2001.
[38] Aziz M J. Metall Mater Trans 1996,27A: 671
[39] Evans R W, Leatham, Brooks R G. Power Metallurgy, 1985,28 : 13~20
[40] Mathur P, Apelian D, Lawley A. Acta Metallurgy, 1989,37: 429〜443
[41] Schubert E, Bergmann H W. In Rapid Solidification alloys]M]. ed. Jones H. Marcel Dekker Inc. 1993, 196~230
[42] German R M. Powder Metallurgy Science, Princeton: New Jersey, Metal Powder Inst Feder, 1984, 74~84
[43] Lawley A. Processing of Structure Metal by Rapid Solidification[C]. ed. Froes F H, Savange S J. ASM International, 1987, 31 — 40
[44] 李成功,傅恒志,于翘,等.航空航天材料[M].北京:国防工业出版社,2002
[45] 陈国良.大块金属玻璃和玻璃形成能力[C].南京理工大学,非晶及超细晶学术讨论会报告,2002
[46] Boettinger, Coriell S R. In science and technology of the under melt
[47] Fu HZ, Xie FQ, Trans Nonferrous Met Soc China, 1999,9: 659-637
[48] Walter HU主编,空间流体科学与空间材料科学,葛 培文等译,北京:中国科学技术出版社
[49] Carlbery T J Cryst Growth, 1986,79: 71 ~76
[50] Li DJ, Wang JT, Ding BZ, et al, Script Metall Mater, 1993,28: 1083~1088
[51] Yao B, Ding BZ, Sui GL, et al. J Mater Res. 1996, 11: 912-916
[52] Correll S R, Cordes M R, Boettinger W J, et al. J Cryst Growth, 1980,49: 13~28
[53] Xion B, Hu WR Microgravity Sci Technol. V11 /2, 1994, 148-152
[54] Cao C D, Herlach D M, Kolbe M, et al. Scripta Mater, 2003,48 : 5~9
[55] Xie W J, Cao C D, Lii Y J, et al. Phys Rev Lett, 2002,89: 1~4
[56] Boettinger W J, Coriett SR, Greer AL, et al. Acta Mater, 2000,48: 43〜70
[57] Kerr H W, Kurz W. Intern Mater Rev. 1996,41 : 129
[58] 师昌绪主编,材料大辞典,北京:化学工业出版社,1994
[59] 黄卫东,等.材料工程,2002,27: 40〜43
京公网安备 11010502051620号
