轻熟女
插死他综合网 社会、学会及学术兼职
发表论文100余篇插死他综合网,其中SCI和EI收录50多篇。
1. Combustion of B4C/KNO3 binary pyrotechnic system. Defence Technology. 2021, 2021(17).
2. Experimental and numerical investigations of the effect of pressure on combustion characteristics of Mg-based solid fuels. Fuel. 2021, 1305:121529.
3. A study of flames with millimeter-wave radiation. Defence Technology. 2020, 16(4): 876-882.
4. Preparation of aluminum nitride by combustion of a Mg-Al alloy. Ceramics International. 2019, 45(15): 18721–18726..
5. Oxidation and Combustion of Mg-Al-Gd Alloy in Air. RARE METAL MATERIALS AND ENGINEERING. 2019, 48(12): 3924-3929.
6. A study on kinetics of ignition reaction of B4C/KNO3 and B4C/KClO4 pyrotechnic smoke compositions. JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY. 2020, 140(5): 2317-2324.
7. Effects of Aluminum Powder on Ignition Performance of RDX,HMX,and CL-20 Explosives. ADVANCES IN MATERIALS SCIENCE AND ENGINEERING. 2018, 2018:5913216.
8. Improvement of aluminized explosives and reaction mechanism of CL-20 with Al or Al-Mg alloy. Science and Technology of Energetic Materials. 2019, 80(3-4): 115-120.
9. The Effect of Microsized Aluminum Powder on Thermal Decomposition of HNIW (CL-20). ADVANCES IN MATERIALS SCIENCE AND ENGINEERING. 2019, 2019: 6487060.
10. The super-hydrophobic thermite film of the Co3O4/Al core/shell nanowires for an underwater ignition with a favorable aging-resistance. CHEMICAL ENGINEERING JOURNAL. 2018, 338: 99-106.
11. Functionalized carbon fibers assembly with Al/Bi2O3: A new strategy for high-reliability ignition. CHEMICAL ENGINEERING JOURNAL. 2020, 389: 124254.
12. A Facile Preparation and Energetic Characteristics of the Core/Shell CoFe2O4/Al Nanowires Thermite Film. Micromachines. 2020, 11(5): 516.
13. Core/shell CuO/Al nanorod thermite film based on electrochemical anodization. NANOTECHNOLOGY. 2018, 29(36): 36LT02
14. Design and fabrication of energetic metal–organic framework [Cu(ntz)]n films with high energy-density and stability. DALTON TRANSACTIONS. 2017, 46(39): 13360-13363.
15. Electrochemical Synthesis of Al/CuO Thermite Films on Copper Substrates. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 2019, 58(17): 7131-7138.
16. In situ synthesis of energetic metal–organic frameworks [Cd5(Mtta)9]n film exhibiting excellent. Journal of Materials Science. 2019, 54(4): 2908-2917.
17. Thermal properties of decomposition and explosion for CL-20 and CL-20/n-Al. JOURNAL OF ENERGETIC MATERIALS. 2020, 38(1): 98-110.
18. A simplified mathematical model for the flame temperature field of illuminant based on burning particles. Proceedings of the SPIE. 2017, 10255: 102551U.
19. Study on performance improvement of PTFE/Mg-film infrared decoy burning at low temperature. Infrared and Laser Engineering. 2017插死他综合网, 46(1): 0104005-1-0104005-5.
20. Study on multiphase diffusion reaction for interface of magnesium particle in microscale. Proceedings of the SPIE. 2018, 11068:1106802.
21. 真空冷冻干燥法制备烟炸药对点火温度清醒性的影响参谋. 火工品.2021.10:42-46.
22. 具有毫米波发射的烟炸药制备及性能参谋. 火工品.2021.10:32-36.
23. 气凝胶基复合含能材料的制备偏激红外避讳性能参谋. 火工品. 2017, 4:23-27.
24. 基于冻干法探索高孔隙率材料在红外发烟剂中愚弄. 火工品. 2019, 4:23-27
25. Ignition Temperature of Magnesium Powder and Pyrotechnic Composition. Journal of Energetic Materials, 2014, 32(3):219-226.
26. Improving Strontium Nitrate-Based Extinguishing Aerosol by Magnesium Powder. Fire Technology, 2015, 51(1):97-107.
27. Study of the Spatial Distribution of Burning Particles in a Pyrotechnic Flame Based on Particle Velocity. Journal of Energetic Materials, 2014, 32(4):252-263.
28. Evaluation of Aerosol Fire Extinguishing Agent Using a Simple Diffusion Model. Mathematical Problems in Engineering, 2012, 2012(2012):1-14.
29. Effect on different additives on thermal properties and combustion characteristics of pyrotechnic mixtures containing the KClO4/ Mg-Al alloy. Thermochimica Acta.2011, 513: 119–123.
30.Effect of different binders on the combustion characteristics of Ba(NO3)2/Mg containing pyrotechnic mixtures. Central European Journal of Energetic Materials, 2013, 10(2): 209-215.
31. Experimental study on the thermodynamic properties of thermites,Advances in Chemical Engineering II, 2012, 550-553, 2777-2781. ISSN: 1022-6680 (WOS:000319487001204)
32. 高原环境续航火箭喷管推力裁汰格外气候,航空能源学报,2015,30(7):1737~1744.
33. 二茂铁基复合激动剂红外/紫外低特征信号愚弄参谋,红外与激光工程,2013,42(2):449~453.
34. Prediction model of aerosol fire extinguishing agent performance based on combination of genetic algorithm and back-propagation neural network. Advanced Materials Research. 2014, 989: 2629-2633.
35. Study on the growth model of expandable graphite. Advanced Materials Research, 2014, 994: 814-819.
36. 烟炸药火焰流场偏激正在点火粒子的空间散播,红外与激光工程,2014,43(2):369~374.
37. Aerodynamic characteristics of projectile with exotic wraparound wings configuration, Journal of Harbin Institute of Technology, 2014. 21(3):30-37.
38. 薄膜型低燃温红外钓饵的发射性能参谋,红外与激光工程,2014,43(10):3193~3198.
39. 镁金属微粒非快速点火响应模子及数值分析,含能材料,2015, 23(6):573~577
40. 烟炸药点火粒子流场的实验参谋与数学模子,含能材料,2016,24(2):118-123.
41. Experimental study of particle flow field and gas flow field in the flame of pyrotechnic combustion, Infrared and Laser Engineering, 2016, article in press.
42. 小长径比弹丸加装大展弦比尾翼的气动特质参谋,力学与实际,37(1):56~63.
43. Mg/KClO4点火火焰中正在点火粒子参谋,火工品,2012,2:31~33.
44. 微泡雾对红外避讳机理参谋,红外本领,2012,34(6):356~360.
45. P/NaNO3基薄膜型高热剂计算与点火响应机理参谋,火工品,2014,3:31~34.
46. 低燃温红外钓饵剂计算偏激点火性能参谋,红外本领,2013,35(10):654~658.
47. 激动剂火焰中点火质点数目与速率散播步履参谋,弹谈学报,2013,25(4):90~94.
48. 烟炸药点火火焰流场的PIV愚弄参谋,火工品,2012,4:29~32.
麻豆 女同49. 气溶胶熄灭剂冷却过滤层参谋,消防科学与本领,2013,32(6):652~655.
50. 高热剂的红外发射特质参谋,红外本领,2011,33(11):670~673.
51. 聚磷酸铵对水系熄灭剂效力的影响参谋,消防科学与本领,2012,31(11):1197~1200.
52. 可彭胀石墨的线性彭胀模子参谋,炭素本领,2015,34(1):11~14.
53. 镁基-S型气溶胶熄灭剂参谋,消防科学与本领,2012,31(8):841~844.
54. 氧差对烟炸药光发射强度的影响,火工品,2012,3:34~36.
55. Measurement and account method for the available standing time of a smoke screen applying the diffusion equation. Propellants, Explosives, Pyrotechnics, 2006.
56. Improving Strontium Nitrate-Based Extinguishing Aerosol by Magnesium Powder. Fire Technology. 2015.
57. 二茂铁基复合激动剂红外/紫外低特征信号愚弄参谋[J]. 红外与激光工程, 2013.
58. 微泡雾对红外避讳机理参谋. 红外本领, 2012.