[1] |
LeBlanc D., Report for US Thorium Alliance, 2009,
|
[2] |
LeBlanc D., Nucl. Eng. Des., 2010, 240(6), 1644—1656
|
[3] |
Hargraves R., Moir R., Am. Sci., 2010, 98(4), 304—313
|
[4] |
Rosenthal M., Kasten P., Briggs R., Nucl. Appl. Technol., 1970, 8(2), 107—117
|
[5] |
Williams D., ORNL Report No. GEN4/LTR-06-033, Oak Ridge, Tennessee, 2006
|
[6] |
Williams D., Toth L., Clarno K., ORNL Report No. TM-2006/12, Oak Ridge, Tennessee, 2006
|
[7] |
Yildiz B., Kazimi M., Int. J. Hydrog. Energy, 2006, 31(1), 77—92
|
[8] |
Forsberg C., Peterson P., Zhao H., J. Sol. Energ., 2007, 129(2), 141—146
|
[9] |
Misra A., Whittenberger J., NASA Technical Memorandum 89913, 1987,
|
[10] |
Department of Energy, Nuclear Energy Research and Development Roadmap, 2010, Vill-Vill
|
[11] |
Seregin M., Parshin A., Kuznetsov A., Ponomarev L., Mel’nikov S., Mikhalichenko A., Rzheutskii A., Manuilov R., Radiochemistry,2011, 53(1), 69—72
|
[12] |
Seregin M., Parshin A., Kuznetsov A., Ponomarev L., Mel’nikov S., Mikhalichenko A., Rzheutskii A., Manuilov R., Radiochemistry,2011, 53(5), 491—493
|
[13] |
Rosenthal M., Haubenreich P., Briggs R., ORNL Report No. 4812, Oak Ridge, TennesseeTennessee, 1972
|
[14] |
McCoy H. Jr., Weir J. Jr., ORNL Report No. 1854, Oak Ridge, Tennessee, 1967
|
[15] |
Briggs R., ORNL Report No.3215, Oak Ridge, Tennessee, 1961
|
[16] |
Macpherson H., ORNL Report No.2890, Oak Ridge, Tennessee, 1960
|
[17] |
Richardson L., Vreeland D., Manly W., ORNL Report No.1491, Oak Ridge, TennesseeTennessee, 1953
|
[18] |
Olson L., Ambrosek J., Sridharan K., Anderson M., Allen T., J. Fluorine Chem., 2009, 130(1), 67—73
|
[19] |
Shaffer J., ORNL Report No.4616, Oak Ridge, Tennessee, 1971
|
[20] |
Jordan W., Cromer S., Miller A., ORNL Report No.2157, Oak Ridge, Tennessee, 1956
|
[21] |
Jordan W., Cromer S., Strough R., Miller A., Savolainen A., ORNL Report No.1816, Oak Ridge, TennesseeTennessee, 1955
|
[22] |
Liu Z. K., J. Phase Equlib. Diff., 2009, 30(5), 517—534
|
[23] |
Chang Y., Chen S., Zhang F., Yan X., Xie F., Schmid-Fetzer R., Oates W., Prog. Mater. Sci., 2004, 49(3/4), 313—345
|
[24] |
Kozak A., C. R. Acad Sci., 1969, 268(Series C), 416—418
|
[25] |
Blochl P., Phys. Rev. B, 1994, 50(24), 17953—17979
|
[26] |
Wang K., Yin H. Q., Cheng J. H., Zuo Y., Xie L. D., Chem. Res. Chinese Universities, 2013, 29(6), 1167—1172
|
[27] |
HSC/DATABASES/MainDB6.REF: Glushko Thermocenter of the Russian Academy of Sciences, IVTAN Association, Izhorskaya 13/19, 127412 Moscow, 1996
|
[28] |
Beneš O., Thermodynamics of Molten Salts for Nuclear Applications, Institute of Chemical Technology, Prague, 2008
|
[29] |
Redlich O., Kister A., Ind. Eng. Chem., 1948, 40(2), 345—348
|
[30] |
Wang K., Dong H. Q., Liu H. B., Li C. H., J. Chin. Crea. Soc., 2008, 36(SI), 67—72
|
|
(王坤, 董和泉, 刘宏葆, 李重河. 硅酸盐学报, 2008, 36(SI), 67—72)
|
[31] |
Hardy H., Acta Metall., 1953, 1(2), 202—209
|
[32] |
Lupis C., Elliott J., Acta Metall., 1967, 15(2), 265—276
|
[33] |
Sommer F., Z. Metallk., 1982, 73, 77—86
|
[34] |
Sommer F., Z. Metallk., 1982, 73, 72—76
|
[35] |
Nie Y. M., Ma H. W., J. Crea., 2005, 26(2), 123—128
|
|
(聂佚苗, 马鸿文, 陶瓷学报, 2005, 26(2) , 123—128)
|
[36] |
Hao S.M., Jiang M., Li H. X., Materials Thermodynamics, Chemical Industry Press, Beijing, 2010, 91—103
|
|
(郝士明, 蒋敏, 李洪晓. 材料热力学, 北京: 化学工业出版社, 2010, 91—103)
|
[37] |
Robelin C., Chartrand P., J. Chem. Thermodyn., 2011, 43(3), 377—391
|
[38] |
Feng D., Shi C. X., Liu Z. G., Introduction of Materials Science, Chemical Industry Press, Beijing, 2002, 702
|
|
(冯端, 师昌绪, 刘治国, 材料科学导论, 北京: 化学工业出版社, 2002, 702)
|