[1]李家宽,马小霞,胡艳,等.KNO3/GO复合含能材料的制备与表征[J].爆破器材,2016,45(02):1-5.[doi:10.3969/j.issn.1001-8352.2016.02.001]
 LI Jiakuan,MA Xiaoxia,HU Yan,et al.Preparation and Characterization of KNO3/GO Composite Energetic Materials[J].EXPLOSIVE MATERIALS,2016,45(02):1-5.[doi:10.3969/j.issn.1001-8352.2016.02.001]
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KNO3/GO复合含能材料的制备与表征()
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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:
45
期数:
2016年02
页码:
1-5
栏目:
基础理论
出版日期:
2016-03-27

文章信息/Info

Title:
Preparation and Characterization of KNO3/GO Composite Energetic Materials
文章编号:
5055
作者:
李家宽马小霞胡艳叶迎华沈瑞琪
南京理工大学化工学院(江苏南京,210094)
Author(s):
LI Jiakuan MA Xiaoxia HU Yan YE Yinghua SHEN Ruiqi
School of Chemical Engineering, Nanjing University of Science and Technology (Jiangsu Nanjing, 210094)
关键词:
含能材料硝酸钾氧化石墨烯负载量热分解
Keywords:
energetic materials potassium nitrate graphene oxide loading amount thermal decomposition
分类号:
TQ560.7
DOI:
10.3969/j.issn.1001-8352.2016.02.001
文献标志码:
A
摘要:
分别采用重结晶法、中和法和溶剂-非溶剂法制备了硝酸钾/氧化石墨烯(KNO3/GO)复合含能材料。通过负载前后质量的变化对KNO3的负载量进行比较,并运用X射线衍射能谱(XRD)、傅里叶红外光谱(FTIR)、场发射扫描电镜(FESEM)和热重/差热分析(TG/DTA)对复合材料进行了表征。结果表明:3种方法中,KNO3都能均匀地负载在GO片层表面,溶剂-非溶剂法中KNO3的负载量最大;重结晶法制备的复合含能材料的反应快速且剧烈,反应起始温度较GO提前了74 ℃;中和法制备的材料的反应相对平缓,经历了3个阶段;溶剂-非溶剂法的热分解过程基本和纯KNO3相同。
Abstract:
Potassium nitrate/graphene oxide (KNO3/GO) composite energetic materials were prepared by the methods of recrystallization, neutralization and solvent/non-solvent respectively. The loading amount of KNO3 was measured by comparing the weight change before and after loading. The composite materials were characterized by X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), field emission scanning electron microscopy (FESEM) and thermogravimetry/differential thermal analysis (TG/DTA). Results show that KNO3 is coated on the surface of GO uniformly by the three methods, while the composite materials prepared by solvent/non-solvent method has the maximum loading amount. The reaction of composite materials prepared by recrystallization is rapid and intense, and the onset point of the samples increase by 74 ℃ compared with that of the raw GO. Samples prepared by neutralization method undergo three different reaction stages, and the reaction is relatively gentle. Thermal decomposition process of materials made by solvent/non-solvent method is the same as that of pure KNO3.

参考文献/References:

[1]王惠娥,沈瑞琪,叶迎华,等. 石墨/硝酸钾的热行为及分解反应动力学研究[J]. 含能材料,2012,20(6):731-734. 
WANG H E, SHEN R Q, YE Y H, et al. Thermal behaviour and decomposition reaction kinetics of graphite/potassium nitrate[J]. Chinese Journal of Energetic Materials, 2012, 20(6): 731-734.
[2]唐桂林,赵家玉,吴煌,等. 黑火药的改进研究[J]. 火工品,2002(4):25-26,33. 
 TANG G L, ZHAO J Y, WU H, et al. Study on the improvement of black powder[J]. Initiators & Pyrotechnics, 2002(4): 25-26,33.
[3]张建忠,侯聪花,胡双启,等. 不同配比安全点火药B/KNO3的研究[J]. 中国安全科学学报,2010,20(2):80-82. 
 ZHANG J Z, HOU C H, HU S Q, et al. Test on the performance of ignition powder of B/KNO3 in different mixture ratio[J]. China Safety Science Journal, 2010, 20(2): 80-82.
[4]崔庆忠,李满,张夫明. C/KNO3点火药研究[J]. 火工品,2001(2):31-32. 
CUI Q Z, LI M, ZHANG F M. Study on C/KNO3 igniting composition[J]. Initiators & Pyrotechnics, 2001(2): 31-32.
[5]崔庆忠,焦清介,刘帅. CNTs/KNO3纳米粒子制备及表征[J]. 含能材料,2009,17(6):685-688. 
 CUI Q Z, JIAO Q J, LIU S. Preparation and characterization of nano-CNTs/KNO3 composites[J]. Chinese Journal of Energetic Materials, 2009, 17(6): 685-688.
[6]ZHU J W, ZENG G Y, NIE F D, et al. Decorating graphene oxide with CuO nanoparticles in a water-isopropanol system[J]. Nanoscale, 2010, 2(6): 988-994. 
[7]SHEN L F, ZHANG X G, LI H S, et al. Design and tailoring of a three-dimensional TiO2-graphene-carbon nanotube nanocomposite for fast lithium storage[J]. The Journal of Physical Chemistry Letters, 2011, 2(24):3096-3101. 
[8]KRISHNAN D,KIM F, LUO J Y, et al. Energetic graphene oxide: challenges and opportunities[J]. Nano Today, 2012,7(2): 137-152. 
[9]HERNANDEZ Y, NICOLOSI V, LOTYA M, et al. High-yield production of graphene by liquid-phase exfoliation of graphite[J]. Nature Nanotechnology,2008, 3(9):563-568.
[10]张晓清,杨志岩,降升平,等. 单层氧化石墨烯的快速制备及表征[J]. 天津科技大学学报,2013,28(2):28-32. 
ZHANG X Q, YANG Z Y, JIANG S P, et al. Rapid preparation and characterization of single-layered graphene oxide[J]. Journal of Tianjin University of Science & Technology, 2013, 28(2): 28-32.

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备注/Memo

备注/Memo:
收稿日期:2015-12-22
基金项目:总装预研基金(9140A05070114BQ02073);2014年江苏省自然科学基金青年基金(BK20140788)
作者简介:李家宽(1991~),男,硕士研究生,主要从事纳米含能材料的研究。E-mail:jslijiakuan@163.com
通信作者:胡艳(1977~ ),女,硕导,副研究员,主要从事纳米复合材料、亚稳态分子间复合物和含能薄膜材料等的研究。E-mail:huyan@njust.edu.cn
更新日期/Last Update: 2016-03-25