[1] Hочовнaя Н A, Aлексеев Е Б, Изотовa A Ю, Hо-вaк A Б 2012 Tumaн 4 42
[2] Strobridge T R, Moulder J C, Clark A F 1979 Titanium Combustion in Turbine Engines (Springfield: National Technical Information Service) FAA-RD-79-51 p15
[3] Huang X, Cao C X, Ma J M, Wang B, Gao Y 1997 J. Mater. Eng. 8 11 (in Chinese) [黄旭, 曹春晓, 马济民, 王宝, 高扬 1997 材料工程 8 11]
[4] Luo Q S, Li S F, Pei H P 2012 J. Aerospace Power 27 2763 (in Chinese) [罗秋生, 李世峰, 裴会平 2012 航空动力学报 27 2763]
[5] Berczik D M US Patent 5 176 762 [1993-01-05]
[6] Steve T, Craig W 1995 Adv. Mater. Process. 4 23
[7] Anderson V, Manty B 1978 Titanium Alloy Ignition and Combustion (Florida: Pratt & Whitney Aircraft Group) 76083-30 p10
[8] Борисова Е А, Скляров Н М 2007 Авиационные материалы и технологи: Выпуск Горение и пожаробезопасность титановых сплавов (Москва: ВИАМ) p21
[9] Cao C X 2006 International Aviation 8 59 (in Chinese) [曹春晓 2006 国际航空 8 59]
[10] Cao J X, Huang X, Mi G B, Sha A X, Wang B 2014 J. Aeronaut. Mater. 34 92 (in Chinese) [曹京霞, 黄旭, 弭光宝, 沙爱学, 王宝 2014 航空材料学报 34 92]
[11] Huang X, Zhu Z S, Wang H H 2012 Advanced Aeronautical Titanium Alloys and Applications (Beijing: National Defense Industry Press) p276 [黄旭, 朱知寿, 王红红 2012 先进航空钛合金材料与应用 (北京: 国防工业出版社) 第276页]
[12] Zhao Y Q, Zhou L, Deng J 1999 Rare Metal Mater. Eng. 28 77 (in Chinese) [赵永庆, 周廉, 邓炬 1999 稀有金属材料与工程 28 77]
[13] Littman F E, Church F M, Kinderman E M 1961 Journal of the Less-Common Metals 3 367
[14] Merzhanov A G 1975 Aiaa J. 13 209
[15] Khaikin B I, Bloshenko V N, Merzhanov A G 1970 Combustion, Explosion and Shock Waves 6 412
[16] Rozenband V I 2004 Combustion and Flame 137 366
[17] Beloni E, Dreizin E L 2011 Combust. Sci. Tech. 183 823
[18] Shafirovich E, Teoh S K, Varma A 2008 Combustion and Flame 152 262
[19] Брейтер А Л, Мальцев В М, Попов Е И 1977 Физика горения и взрыва 13 558
[20] Болобов В И 2002 Физика горения и взрыва 38 1
[21] Болобов В И, Шнеерсон Я М, Лапин А Ю 2011 Цветные металлы 12 98
[22] Mi G B, Huang X, Cao J X, Wang B, Cao C X China Patent ZL201218003649.0 [2012-09-04] (in Chinese) [弭光宝, 黄旭, 曹京霞, 王宝, 曹春晓 中国专利 ZL201218003649.0 2012-09-04]
[23] Mi G B, Huang X, Cao J X, Cao C X 2014 Acta Metall. Sin. 50 575 (in Chinese) [弭光宝, 黄旭, 曹京霞, 曹春晓 2014 金属学报 50 575]
[24] Mi G B, Cao C X, Huang X, Cao J X, Wang B 2014 J. Aeronaut. Mater. 34 83 (in Chinese) [弭光宝, 曹春晓, 黄旭, 曹京霞, 王宝 2014 航空材料学报 34 83]
[25] Mi G B, Cao C X, Huang X, Cao J X, Wang B, Sui Nan 2016 J. Mater. Eng. 44 1 (in Chinese) [弭光宝, 曹春晓, 黄旭, 曹京霞, 王宝, 隋楠 2016 材料工程 44 1]
[26] Mi G B, Huang X, Cao J X, Cao C X Huang X S 2013 Trans. Nonferrous Met. Soc. China 23 2270
[27] Mi G B, Huang X S, Li P J, Cao J X, Huang X, Cao C X 2012 Trans. Nonferrous Met. Soc. China 22 2409
[28] Yang Z N, Liu Q, Zhu Z Q, Zhang J, Liu Q J 2009 Mater. Sci. Eng. Powder Metall. 14 63 (in Chinese) [杨贞妮, 刘强, 朱忠其, 张瑾, 柳清菊 2009 粉末冶金材料科学与工程 14 63]
[29] Xu L, Tang C Q, Huang Z B 2010 Acta Phys. Chim. Sin. 26 1401 (in Chinese) [徐凌, 唐超群, 黄宗斌 2010 物理化学学报 26 1401]
[30] Chen J, Yan F N, Liang L P, Liu T Y, Geng T 2011 J. Synthetic Crystals 40 758 (in Chinese) [陈俊, 严非男, 梁丽萍, 刘廷禹, 耿滔 2011 人工晶体学报 40 758]
[31] Li S X, Wan R F, Yang S W, Long Y 2011 Progress Report on China Nuclear Sci. Tech. 2 133 (in Chinese) [李顺兴, 万荣发, 杨善武, 龙毅 2011中国核科学技术进展报告 2 133]
[32] Лякишев Н П 1996 Диаграммы состояния двойных метоллических систем (Москва: Машиностроение) p397
[33] Kubaschewski O, Hopkins E B 1962 Oxidation of Metals and Alloys (London: Butterworths) p73
[34] Birks N, Meier G H, Pettit F S 2009 Introduction to the High Temperature Oxidation of Metals (London: Cambridge University Press) p31
[35] Каракозов Э С 1977 Диффузионная сварка титана (Москва: Металлургия) p58
[36] Froes F H, Caplan I 1993 Titanium'92: Science and Technology (Warrendale: TMS) p2819
[37] Popel P S, Calvo-Dahlborg M, Dahlborg U 2007 J. Non-Cryst. Solids 353 3243
[38] Mi G B, Li P J, Huang X, Cao C X 2012 Acta Phys. Sin. 61 186106 (in Chinese) [弭光宝, 李培杰, 黄旭, 曹春晓 2012 物理学报 61 186106]
[39] Stephen R T 2000 An Introduction to Combustion: Concepts and Application (New York: McGraw-Hill Higher Education) p125