Page 187 - 201902

P. 187

第 2 期王晓川，等: 烯基聚醚含能黏合剂的合成与固化 ·353·

[8] Badgujar D, Talawar M, Asthana S, et al. Advances in science and 1063-1069.
technology of modern energetic materials: An overview[J]. Journal of [13] Huffman S, Schultz A, Schlom J. Novel reagents for heat-activated
Hazardous Materials, 2008, 151(2/3): 289-305. polymer crosslinking[J]. Polymer Bulletin, 2001, 47(2): 159-166.
[9] Desail H, Cunliffe A, Hamid J, et al.Synthesis and characterization of [14] Rao M, Scariah K, Varghese A, et al. Evaluation of criteria for
α,ω-hydroxy and nitrato telechelic oligomers of 3,3-(nitratomethyl) blending hydroxy terminated polybutadiene (HTPB) polymers based
methyl oxetane (NIMMO) and glycidyl nitrate (GLYN) [J]. Polymer, on viscosity build-up and mechanical properties of gumstock[J].
1996, 37(15): 3461-3469. European Polymer Journal, 2000, 36(8): 1645-1651.
[10] Golofit T, Zyśk K. Thermal decomposition properties and [15] Mo Hongchang (莫洪昌), Gan Xiaoxian (甘孝贤), Xing Ying (邢
compatibility of CL-20 with binders HTPB, PBAN, GAP and 颖), et al. Synthesis and properties of energetic binder PNIMMO[J].
polyNIMMO[J]. Journal of Thermal Analysis and Calorimetry, 2015, Chinese Journal of Explosives & Propellants(火炸药学报), 2008,
119(3): 1931-1939. 31(5): 24-27.
[11] Keicher T, Kuglstatter W, Eisele S, et al. Isocyanate-free curing of [16] Wang Xiaochuan (王晓川), Shu Yuanjie (舒远杰), Lei Yonglin (雷永
glycidyl azide polymer (GAP) with bis-propargyl-succinate (II)[J]. 林), et al. Curing of hydroxyl-terminated polybutadiene(HTPB) with
Propellants Explosives Pyrotechnics, 2009, 34(3): 210-217. nitrile oxide[J]. Fine Chemicals (精细化工), 2018, 35(4): 695-699.
[12] Fan Yaqin (樊亚勤), Xiang Yao (向尧), Lei Yonglin (雷永林), et al. [17] Standardization Administration of the People's Republic of China (中
Synthesis of terephthalonnitrile oxide and its curing properties at 国国家标准化管理委员会).GB/T 528—2009[S]. Beijing: Standards
room temperature[J]. Fine Chemicals (精细化工), 2017, 34(9): Press of China (中国标准出版社), 2009.

（上接第 340 页） [17] Bao Yan (鲍艳), Guo Jiajia (郭佳佳), Wang Xian (王宪). Synthesis
and properties of quaternary ammonium organic silicon gemini
[8] Tezel U, Pavlostathis S G.Role of quaternary ammonium compounds surfactant [J]. Fine Chemicals (精细化工), 2016, 33(6): 343-346.
on antimicrobial resistance in the environment[M]. Antimicrobial [18] Vasiljević J, Tomšič B, Jerman I, et al. Novel multifunctional water-
Resistance in the Environment. John Wiley & Sons, Inc, 2011: and oil-repellent, anti-bacterial, and flame-retardant cellulose fibres
349-387. created by the sol–gel process[J]. Cellulose, 2014, 21(4): 2611-2623.
[9] Kang Shaoran (康少冉), An Qiufeng (安秋凤), Ma Libo (马立博), et [19] Cui X, Zhong S, Wang H. Emulsifier-free core–shell polyacrylate
al. Synthesis of orgain quaternary ammonium salt polymer and its latex nanoparticles containing fluorine and silicon in shell[J].
application as an antibacterial fabric softener[J]. Fine Chemicals (精 Polymer, 2007, 48(25): 7241-7248.
细化工), 2015, 32(10): 1152-1156. [20] Dong Yaohua (董耀华), Guo Na (郭娜), Liu Tao (刘涛), et al.
[10] Ma Wei (马威), Tuo Tingting (拓婷婷), Zhang Shufen (张淑芬). Research on the preparation of Ag-loaded self-polishing/low surface
Research development of antibacterial agent[J]. Fine Chemicals (精 energy coating and its antifouling ability[J]. Surface Technology (表
细化工), 2012, 29(6): 521-525, 536. 面技术), 2015, 44(3): 100-106.
[11] Zhang Faai (张发爱), Wang Yunpu (王云普), Yu Caili (余彩莉), et [21] Sun Xiaoying (孙小英), Su Youquan (苏友权), Jin Lujiang (金鹿
al. Study of watersolubility of acrylic resin containing hydroxyl 江), et al. Synthesis and ant-biofouling properties of fluorine/silicone
group[J]. Fine Chemicals (精细化工), 2005, 22 (9): 717-720. synergistically modified acrylic resins[J]. Acta Polymericasinica(高
[12] Jena K K, Narayan R, Alhassan S M. Highly branched graphene 分子学报), 2013, (1): 134-141.
siloxane−polyurethaneurea (PU-urea) hybrid coatings[J]. Progress in [22] Cheng Zhang (程章), Zhang Fan (张帆), Sun Xiaoying (孙小英), et
Organic Coatings. 2017, 111(11): 343-353. al. Preparation and properties of amphiphilic fluorinated silicone
[13] Karamdoust S, Yu B, Bonduelle C V, et al. Preparation of modified acrylic resin coatings containing PEG for anti-fouling
antibacterial surfaces by hyperthermal hydrogen induced cross- applicaion[J]. Acta polymerica Sinica (高分子学报), 2016, (8):
linking of polymer thin films[J]. Journal of Materials Chemistry, 1112-1120.
2012, 22(11): 4881-4889. [23] Yan L, Xu Z, Wang X. Influence of nano-silica on the flame
[14] Basri H, Ismail A F, Aziz M, et al. Silver-filled polyethersulfone retardancy and smoke suppression properties of transparent
membranes for antibacterial applications-effect of PVP and TAP intumescent fire-retardant coatings[J]. Progress in Organic Coatings,
addition on silver dispersion.[J]. Desalination, 2010, 261(3): 2017, 112(9): 319-329.
264-271. [24] Wu X, Li J, Li G, et al. Heat-triggered poly(siloxane-urethane)s
[15] Lin J, Lin W, Li S, et al. Evaluation of the antibacterial activity and based on disulfide bonds for self-healing application[J]. Journal of
biocompatibility for silver nanoparticles immobilized on nano silicate Applied Polymer Science, 2018. DOI: 10. 1002/APP. 46532.
platelets[J]. ACS Applied Materials & Interfaces, 2012, 5(2): 433- [25] Zhang Chaoying, Zhu Zhewen, Gong Shuling, et al. Synthesis of
443. stable high hydroxyl content self-emusifying waterborne polyacylate
[16] He Lihong (何丽红), Zhou Chao (周超), Li Li (李力), et al. emulsion[J]. Journal of Applied Polymer Science, 2017, 44844: 1-11.
Superhydrophobicity of surface-modified TiO 2 with silane coupling [26] Wang Jichang (王季昌). Tg design and selection of acrylic resin[J].
agent[J]. Fine Chemicals (精细化工), 2014, 31(9): 1061-1064. China Coatings (中国涂料), 2008, 23(10): 52-56.

182 183 184 185 186 187 188 189 190 191 192