[1]高 霞,等.不同壁材石蜡微胶囊与HTPB型黏结剂的表界面研究[J].火炸药学报,2020,43(2):161-166.[doi:10.14077/j.issn.1007-7812.201905012]
 GAO Xia,ZHAO Tian-bo,ZHENG Bao-hui,et al.Surface and Interface Study on the MePWs with Different Shells and HTPB-Type Binder[J].,2020,43(2):161-166.[doi:10.14077/j.issn.1007-7812.201905012]
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不同壁材石蜡微胶囊与HTPB型黏结剂的表界面研究

参考文献/References:

[1] BOIOCCHI M, MILOVA P, GALFETTI L, et al. A wide characterization of paraffin-based fuels mixed with styrene-based thermoplastic polymers for hybrid propulsion[C]∥Progress in Propulsion Physics.France:EDP Sciences, 2016:241-262.
[2]ABUSAIDI H, GHAIENI H R, POURMORTAZAVI S M, et al. Effect of nitro content on thermal stability and decomposition kinetics of nitro-HTPB[J]. J Therm Anal Calorim, 2015,124(2):935-941.
[3]BODDY R L, GOULD P J, JARDINE A P, et al. Damage in polymer bonded energetic composites: effect of loading rate[J]. Journal of Dynamic Behavior of Materials, 2016,2(1):157-165.
[4]KSHIRSAGAR D R, JAIN S, JAWALKAR S N, et al. Evaluation of nano-Co3O4 in HTPB-based composite propellant formulations[J]. Propellants, Explosives, Pyrotechnics, 2016,41(2):304-311.
[5]BINA C K, KANNAN K G, NINAN K N. DSC study on the effect of isocyanates and catalysts on the HTPB cure reaction[J]. Journal of Thermal Analysis & Calorimetry, 2004,78(3):753-760.
[6]MAZZETTI A, MEROTTO L, PINARELLO G. Paraffin-based hybrid rocket engines applications: A review and a market perspective[J]. Acta Astronaut, 2016,126:286-297.
[7]CARDOSO K P, FERR?O L F A, KAWACHI E Y, et al. Preparation of paraffin-based solid combustible for hybrid propulsion rocket motor[J]. J Propul Power, 2016,33(2):448-455.
[8]CALABRO M, KOBALD M, TOSON E, et al. Rheological, optical, and ballistic investigations of paraffin-based fuels for hybrid rocket propulsion using a two-dimensional slab-burner[J]. Prog Prop Phys, 2016,8:263-282.
[9]LECCESE G, BIANCHI D, NASUTI F. Modeling of paraffin-based fuels in the simulation of hybrid rocket flowfields[C]∥Propulsion and Energy Forum.Salt Lake City:The American Institute of Aeronautics and Astronautics,2016.
[10]SINHA Y K, SRIDHAR B T N, KISHNAKUMAR R. Study of thermo-mechanical properties of HTPB–paraffin solid fuel[J]. Arab J Sci Eng, 2016,41(11):4683-4690.
[11]LI X, WANG B L, LIN Q H, et al. Compatibility study of DNTF with some insensitive energetic materials and inert materials[J]. Journal Energ Mater, ?2016,34(4):409-415.
[12]LI W, WANG J, WANG X, et al. Effects of ammonium chloride and heat treatment on residual formaldehyde contents of melamine-formaldehyde microcapsules[J]. Colloid Polym Sci, 2007,285(15):1691-1697.
[13]SALAüN F, DEVAUX E, BOURBIGOT S, et al. Thermoregulating response of cotton fabric containing microencapsulated phase change materials[J]. Thermochim Acta, 2010,506(1-2):82-93.
[14]YIN D, MA L, LIU J, et al. Pickering emulsion: a novel template for microencapsulated phase change materials with polymer–silica hybrid shell[J]. Energy, 2014,64:575-581.
[15]XIA G, ZHAO T, GUAN L, et al. A novel form-stable paraffin-based hydroxyl-terminated polybutadiene binder containing microencapsulated paraffin wax[J]. Journal of Thermal Analysis & Calorimetry, 2018(5):1-12.
[16]ZHANG J, ZHAO T, CHAI Y, et al. Preparation and characterization of high content paraffin wax microcapsules and micro/nanocapsules with poly methyl methacrylate shell by suspension-like polymerization[J]. Chin J Chem, 2017,35(4):497-506.
[17]GAO X, ZHAO T, LUO G, et al. Facile method of fabricating microencapsulated phase change materials with compact bonding polymer–silica hybrid shell using TEOS/MPS[J]. Thermochim Acta, 2018,659: 183-190.
[18]SAR A, ALKAN C, BILGIN C. Micro/nano encapsulation of some paraffin eutectic mixtures with poly(methyl methacrylate)shell: preparation, characterization and latent heat thermal energy storage properties[J]. Appl Energ, 2014,136:217-227.
[19]ZHU Y, LIANG S, CHEN K, et al. Preparation and properties of nanoencapsulated n-octadecane phase change material with organosilica shell for thermal energy storage[J]. Energ Convers Manag, 2015,105:908-917.
[20]YIN D, ZHANG Q, YIN C, et al. Hollow microspheres with covalent-bonded colloidal and polymeric shell by pickering emulsion polymerization[J]. Polym Adv Technol, 2012,23(3):273-277.
[21]LV X, ZHA M, MA Z, et al. Fabrication, characterization, and combustion performance of Al/HTPB composite particles[J]. Combust Sci Technol, 2017,189(2): 312-321.
[22]LIANG S, ZHU Y, WANG H, et al. Preparation and characterization of thermoregulated rigid polyurethane foams containing nanoencapsulated phase change materials[J]. Ind Eng Chem Res, 2016,55(10):2721-2730.
[23]YANG M, XIA Y. Preparation and characterization of nano-SiO2 reinforced alginate-based nanocomposite films(II)[J]. J Appl Polym Sci, 2017,134(38):45286.
[24]FEI J, LUO D, WANG H, et al. Effect of nano-SiO2 particles on the carbon fabric/resin friction materials by microwave-hydrothermal treatment[J]. J Compos Mater, 2018,52(2): 245-252.

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备注/Memo

收稿日期:2019-05-09; 修回日期:2020-01-14
基金项目:国家自然科学基金(No.20973022; No.11472048; No.11502249)
作者简介:高霞(1988-),女,博士研究生,从事含能材料应用研究。E-mail:18630658732@163.com
通信作者:罗观(1972-),男,研究员,从事含能材料应用研究。E-mail:luoguan@caep.com

更新日期/Last Update: 2020-05-13


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