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| 金属氚化物的时效和时效效应 |
| 王隆保 吕曼祺 李依依 |
| 中国科学院金属研究所; 沈阳 110016 |
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引用本文:
王隆保; 吕曼祺; 李依依 . 金属氚化物的时效和时效效应[J]. 金属学报, 2003, 39(5): 449-469 .
[1] Nobile A, WermerJ R, Walters R T. WSRC-MS-91-076,1991
[2] Beavis L C. J Less-Common Met, 1969; 19: 315
[3] Beavis L C. J Less-Common Met, 1972; 27: 201
[4] Feng D, Shi C X, Liu Z G. Introduction to Materials Science. Beijing: Chemistry Industry Press, 2002: 97(冯端,师昌绪,刘治国.材料科学导论.北京:化学工业出版社,2002:97)
[5] Leibfried G, Breuer N. Point Defects in Metals. Berlin:Springer-Verlag, 1978: 1980
[6] Michio K. J Nucl Mater, 2000; 276: 41
[7] Barnes R S. Nature, 1965; 206: 1307
[8] Wang P X, Song J S. Helium in Materials and the Permeation oj Tritium. Beijing: National Defence Industry Press, 2002: 5(王佩璇,宋家树.材料中的He及氚渗透.北京:国防工业出版社,2002:5)
[9] Losser R. Tritium and Helium-3 in Metals. Berlin:Springer-Verlag, 1989: 109
[10] Picraux S T. Nucl Instrum Methods, 1981; 182/185: 413
[11] Wilson W D, Bisson C L, Baskes M I. Phys Rev, 1981;24B: 5616
[12] Melius C F, Bisson C L, Wilson W D. Phys Rev, 1978;B18: 1647
[13] Wilson W D, Baskes M I, Bisson C L. Phys Rev, 1976;13B: 2470
[14] Caspers L M, Van Dam H, Veen A V. Chem Phys, 1974;1: 39
[15] Schroder H, Kestericn W, Ullmaier H. Nucl Eng Des/Fusion, 1983; 2: 65
[16] Trinkaus H. Radiat Eff, 1983; 78: 189
[17] Thinkaus H. J Nucl Mater, 1985; 13/134: 150
[18] Thinkaus H. Radiat Eff, 1986; 101: 91
[19] Schober T, Thinkaus H. Philos Mag, 1992; 65: 1235
[20] Thiebaut S. Phys Rev, 1998; 57A: 10 379
[21] Weaver H T, William Camp J. Phys Rev, 1975; 12: 3054
[22] Camp W J. J Vac Sci Technol, 1977; 14: 314
[23] Raju P G, Michele G. Phys Rev, 2002; 66B: 014105-1
[24] Bowman R C Jr, Attalla A. Phys Rev, 1977; 16B: 1828
[25] Bowman R C Jr. Nature, 1978; 271: 531
[26] Rodin A M, Surengants V V. Zh Fiz, Khim, 1971; 45:1094(1971; 25: 1094)
[27] Cost J R, Hickman R G. J Vac Sci Technol, 1975; 12: 516
[28] Khimyi Yu M, Kochemasova L N, Berezhko P G. Zh Fiz Khim, 1979; 7: 1997(1979; 7: 1797)
[29] Khimyi Yu M, Kochemasova L N. Zh Fiz Khim, 1983; 2:463(1983; 2: 463)
[30] Thomas G J, Swansiger W A, Baskes M I. J Appl Phys,1979; 50: 6942
[31] Vedeneev A I. J Nucl Mater, 1996; 233: 1189
[32] Thomas G J, Mintz J M. J Nucl Mater, 1983; 116: 336
[33] Schober T, Lasser R. J Nucl Mater, 1984; 120: 137
[34] Schober T, LAsser R, Jager W, Thomas G J. J Nucl Mater,1984; 122: 571
[35] Schober T, Thinkaus H, Lasser R. J Nucl Mater, 1986;
141: 453
[36] Schober T, Lasser R, Dieker C, Thinkaus H. J Less-Common Met, 1987; 131: 293
[37] Schober T, Trinkaus H. J Appl Phys, 1991; 70: 729
[38] Wolfer W G. Philos Mag, 1988; 58A: 285
[39] Singh B N. Foreman A J E, Je A. ASTMSTP 1046, 1989:555
[40] Emig J A, Garza R G, Christernsen L D, Coronado P R,Souers P C. Nuclear, 1992; 187: 209
[41] Walters R T. J Less-Common Met, 1990; 157: 97
[42] Carlson R S. In: Walson J S, Wiffen F W eds., Proc Int Conf on Rediation Effect and Tritium Technology for Fusion Reactore, Vol.4, Commerce, USA: Springfild VA,1976: 158
[43] Beavis L C, Kass W J. J Vac Sci Technol, 1977; 14: 509
[44] Walters R T, Nobile A, Mosley W C. J Less-Common Met, 1991; 170: 63
[45] Nobile A, Walters K T, Mosley W C. J Less-Common Met, 1991; 172: 135
[46] Sandrok G D, Goodell P D, Huston E L. Golben P L.Int Sympos on Metal-Hydrogen Systems, Munchen, 1988:1295
[47] Flament J L, Lozes G. 3rd Int Congress on Hydrogen in Metals, Btuyers-Le-Chatel, France, 1982: 173
[48] Lasser R, Bickman H, Trinkaus H. Phys Rev, 1989; 40:1277
[49] Bowman B C, Jr., Carlson R S, Desando R J. Trans Am Nucl Soc, 1976; 24: 496
[50] Sandorck G D, Goodell P D, Huston E L. Golben P M. Z Phys Chem, Neue Folge, 1989; 164: 1285
[51] Krivoglaz M A. Theory of X-ray and Thermal Neutron Scattering by Real Crystals, New York: Plenum, 1969:135
[52] Thiebaut S. J Nucl Mater, 2000; 277: 217
[53] Cochrane B, Goodhew P J. Phys Status Solidi, 1983; 77A:269
[54] Greenwood G W, Foreman A J E, Rimmer D E. J Nucl Mater, 1959; 4: 305
[55] Blaschko O, Pleschiutschning J, Glas R, Weinzierl. Phys Rev, 1991; 44A: 9164
[56] Thiebaut S, Bigot A, Achard J C, Limacher B, Leroy D,Percheron-Guegan A. J Alloys Compd, 1995; 231: 440
[57] Wermer J R. WSRC-TR-93-453, 1993
[58] Poal-Boncour V, Perchron-CueganA, Achard J C, Gasnier P, Carrriat J Y, Limacher B, Leroy D. Z Phys Chem, 1994;109: 1133.
[59] Schober T, Lasser R, Golczewski J, Dieker C, Trinkaus H.Phys Rev, 1985; 31B: 7109
[60] Mao H K, Hemley R J, Wu Y, Jephcoat A P, Finger L W,Zha C S, Bassett W A. Phys Rev Lett, 1988; 60: 2649
[61] Bowman R C. Fusion Technol, 1985; 8: 2366
[62] Walters R T, Lee M W. Mater Charoct, 1991; 27: 157
[63] Abell G C, Matson L K, Steinmeyer R H. Phys Rev, 1990;41: 1220
[64] Mitchell D J. J Vac Sci Techol, 1981; 19: 236
[65] Mitchell D J. J Appl Phys, 1985; 57: 1855
[66] Ishikawa Y. Vacuum, 1996; 47: 357
[67] Perkins W G. In: Walson J S, Wiflen F W eds., Proc Int Conf on Rediation Effect and Tritium Technology for Fusion Reactors, Vol.4, Commerce, USA: Springfild, VA,1976: 83
[68] Faure C, Bach P, Bernardet H. Le Vide Les Couches Minces, 212, Mai-Juin-Juillet, 1982
[69] Luo H Z, Yang B F, Long X G. Atom Energy Sci Technol,2002; 36: 290(罗恒忠,杨本纺,龙兴贵.原子能科学技术,2002;36:290)
[70] Devillers M, Sirch M, Penzhorn R D. Chem Mater, 1992;4: 637
[71] Maynard K J, ShmaydaW T, Heics A G. Fusion Technol,1995; 28: 1391 |
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