导流型热蒸发沉积制备微球表面聚酰胺酸涂层
[1] Tabak M, Hammer J M, Glinsky M E, et al. Ignition and high gain with ultra powerful lasers[J]. Phys Plasmas, 1994, 1(5): 1626-1634.
[2] Lindl J. Development of the indirect-drive approach to inertial confinement fusion and the target physics basis for ignition and gain[J]. Phys Plasmas, 1995, 2(11): 3933-4023.
[3] 张占文,黄勇,刘一扬,等.聚酰亚胺材料在惯性约束聚变制靶中的应用[J].功能材料, 2007, 38(s1): 1678-1683.(Zhang Zhanwen, Huang Yong, Liu Yiyang, et al. Application of polyimide in inertial confinement fusion targets. Journal of Functional Materials, 2007, 38(s1): 1678-1683)
[4] 刘金刚,杨士勇.惯性约束聚变用聚酰亚胺靶丸的研究进展[J].核科学与工程, 2006, 26(3): 276-282.(Liu Jin’gang, Yang Shiyong. Recent progress of polyimide target capsules for inertial confinement fusion. Chinese Journal of Nuclear Science and Engineering, 2006, 26(3): 276-282)
[5] 丁孟贤.聚酰亚胺: 化学、结构与性能的关系及材料[M].北京:科学出版社, 2006: 2-3.(Ding Mengxian. Polyimide: Chemistry, relationship between structure and properties and materials. Beijing: Science Press, 2006: 2-3)
[7] Tsai F Y, Alfonso E L, Chen S H, et al. Mechanical properties and gas permeability of polyimide shells fabricated by the vapor deposition method[J]. Fusion Technology, 2000, 38: 83-89.
[8] Alfonso E L, Chen S H, Gram R Q, et al. Properties of polyimide shells made using vapor phase deposition[J]. J Mater Res, 1998, 13(10): 2988-3000.
[9] Alfonso E L, Tsai F Y, Chen S H, et al. Fabrication of polyimide shells by vapor deposition for use as ICF targets[J]. Fusion Technology, 1999, 35(2): 131-137.
[10] Roberts C C, Letts S A, Saculla M D, et al. Polyimide films from vapor deposition: Toward high strength, NIF capsules[J]. Fusion Technology, 1999, 35(2): 138-145.
[11] Marsacq D, Jousse F. High performance aromatic polyimide for inertial confinement fusion: Capsule and membrane application[J]. Fusion Technology, 2000, 36(1): 90-93.
[12] Tsai F Y, Harding D R, Chen S H, et al. Effects of processing conditions on the quality and properties of vapor-deposited polyimide shells[J]. Fusion Technology, 2002, 38(2): 178-185.
[13] Letts S A, Anthamatten M, Buckley S R, et al. Progress toward meeting NIF specifications for vapor deposited polyimide ablator coatings[J]. Fusion Technology, 2004, 45(2): 180-186.
[14] Knight A K, Tsai F Y, Bonino M J, et al. Suitability of different polyimide capsule materials for use as ICF targets[J]. Fusion Technology, 2004, 45(2): 187-196.
[15] Chen K C, Nikroo A. Improvement of surface smoothness of vapor-deposited polyimide coatings using a plastic mesh container as bounce pan[J]. Fusion Science and Technology, 2006, 49(4): 721-727.
[16] Knight A K, Harding D R. Analysis of the discrete stages of the formation of polyimide films by vapor deposition and their effects on the film’s properties[D]. New York: University of Rochester, 2007: 22-24.
黄勇, 张占文, 刘一扬, 李波, 陈淑芬, 漆小波. 导流型热蒸发沉积制备微球表面聚酰胺酸涂层[J]. 强激光与粒子束, 2011, 23(6): 1527. Huang Yong, Zhang Zhanwen, Liu Yiyang, Li Bo, Cheng Shufen, Qi Xiaobo. Polyamic acid coating of microspheres by oriented thermal vapor deposition[J]. High Power Laser and Particle Beams, 2011, 23(6): 1527.