China Safety Science Journal ›› 2021, Vol. 31 ›› Issue (4): 163-170.doi: 10.16265/j.cnki.issn1003-3033.2021.04.022
• Safety engineering technology • Previous Articles Next Articles
WANG Gan, ZHENG Zhongyu, DUAN Weijia, PAN Yong
Received:
2021-01-11
Revised:
2021-03-15
Online:
2021-04-28
Published:
2021-12-20
CLC Number:
WANG Gan, ZHENG Zhongyu, DUAN Weijia, PAN Yong. Experimental study on thermal instability of imidazolium ionic liquids[J]. China Safety Science Journal, 2021, 31(4): 163-170.
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URL: http://www.cssjj.com.cn/EN/10.16265/j.cnki.issn1003-3033.2021.04.022
[1] 张锁江,刘晓敏,姚晓倩,等.离子液体的前沿、进展及应用[J].中国科学B 辑:化学,2009, 39 (10): 1 134-1 144. ZHANG Suojiang, LIU Xiaomin, YAO Xiaoqian, et al. Frontiers, progresses and applications of ionic liquids [J]. Science in China Series B: Chemistry, 2009, 39 (10): 1 134-1 144. [2] DONG Kun, LIU Xiaomin, ZHANG Suojiang, et al. Multiscale studies on ionic liquids[J]. Chemical Reviews, 2017, 117(10): 6 636-6 695. [3] 魏晨晔,蒋会春,潘旭海,等.双丙胶乳生产工艺及其产物的热危险性试验研究[J].中国安全科学学报,2018,28(12): 102-108. WEI Chenye, JIANG Huichun, PAN Xuhai, et al. Experimental study on thermal risks of double-propylene latex production process and its products[J]. China Safety Science Journal,2018,28(12): 102-108. [4] 张伟,蒋军成,邹梦雅,等.1,1-二叔戊基过氧环己烷热危险性分析[J].中国安全科学学报,2019,29(2): 82-87. ZHANG Wei, JIANG Juncheng, ZOU Mengya, et al. Thermal hazard analysis of 1,1-di (tert-amylperoxy) cyclohexane [J].China Safety Science Journal, 2019,29(2): 82-87. [5] FOX D M, GILMAN J W, LONG H C D, et al. TGA decomposition kinetics of 1-butyl-2,3-dimethylimidazolium tetrafluoroborate and the thermal effects of contaminants[J]. Journal of Chemical Thermodynamics, 2005, 37(9): 900-905. [6] MATON C, DEVOS N, STEVENS C V. Ionic liquid thermal stabilities: decomposition mechanisms and analysis tools[J]. Chemical Society Reviews, 2013, 42(13): 5 963-5 977. [7] CAO Yuanyuan, MU Tiancheng. Comprehensive investigation on the thermal stability of 66 ionic liquids by thermogravimetric analysis[J]. Industrial & Engineering Chemistry Research, 2014, 53(20): 8 651-8 664. [8] SALGADO J, VILLANUEVA M, PARAJO J J, et al. Long-term thermal stability of five imidazolium ionic liquids [J]. Journal of Chemical Thermodynamics, 2013, 65: 184-190. [9] BLANCO D, OULEGO P, RAMOS D, et al. Model-free kinetics applied to evaluate the long-term thermal stability of three [NTf2] anion-based ionic liquids[J]. Thermochimica Acta, 2017, 656: 70-84. [10] FOX D M, AWAD W H, GILMAN J W, et al. Flammability, thermal stability, and phase change characteristics of several trialkylimidazolium salts[J]. Green Chemistry, 2003, 5(6): 724-727. [11] LIAW Horngjang, CHEN Chancheng, CHEN Yichien, et al. Relationship between flash point of ionic liquids and their thermal decomposition[J]. Green Chemistry, 2012, 14(7): 2 001-2 008. [12] LIAW Horngjang, LIOU Yuanruei, LIU Pinghui, et al. Increased flammability hazard when ionic liquid [C6mim][Cl] is exposed to high temperatures[J]. Journal of Hazardous Materials, 2019, 367: 407-417. [13] ASTM D93-2016,Standard test methods for flash point by Pensky-Martens closed cup tester[S]. [14] 李雪辉,张磊,李琼. 1-正丁基-3-甲基咪唑溴化物离子液体TGA-FTIR研究[J]. 物理化学学报,2004,20(12): 1 465-1 468. LI Xuehui, ZHANG Lei, LI Qiong. TGA-FTIR study of l-n-butyl-3-methylimidazolium bromide ionic liquid [J]. Journal of Physical Chemistry,2004,20(12): 1 465-1 468. [15] 廖翔鸿. HOX在离子液体和传统有机溶剂中萃取U(Ⅵ)的比较研究[D]. 南昌: 东华理工大学, 2015. LIAO Xianghong. Comparison of the Uranium (VI) extraction in ionic liquids and traditional solvents by HOX [D]. Nanchang: East China Institute of Technology, 2015. [16] 吴琼,张恒强,王晓忠. 离子液体的结构与其物理性质之间的关系[J].河北民族师范学院学报,2015, 35(2): 65-69. WU Qiong, ZHANG Hengqiang, WANG Xiaozhong. Relationship between structure and physical properties of ionic liquid [J]. Journal of Hebei Normal University for Nationalities,2015, 35(2): 65-69. [17] LIU Shanghao, LIN Weicheng, XIA Han, et al. Combustion of 1-butylimidazolium nitrate via DSC, TG, VSP2, FTIR, and GC/MS: an approach for thermal hazard, property and prediction assessment[J]. Process Safety and Environmental Protection, 2018, 116: 603-614. [18] LIU Shanghao, ZHANG Bin. Using thermal analysis technology to assess the thermal stability of 1, 3-dimethylimidazolium nitrate[J]. Process Safety and Environmental Protection. 2019, 124: 181-186. [19] ZHANG Bin, LIU Shanghao, LIU Jie, et al. Thermal stability and flammability assessment of 1-ethyl-2, 3-dimethylimidazolium nitrate[J]. Process Safety and Environmental Protection, 2020, 135: 219-227. |
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