«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

j.issn.1001-8352.2015.06.009]
点击复制

乳化炸药稳定性及其破乳机理研究()

分享到：

《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 44
期数:: 2015年06

页码:: 38-42

栏目:: 爆炸材料

出版日期:: 2015-12-03

文章信息/Info

Title:: Storage Stability and Demulsion Mechanism of Emulsion Explosives

文章编号:: 4944

作者:: 刘杰^①; 徐志祥^②; 孔煜^③; ①安顺久联民爆有限责任公司（贵州安顺，561006）
②江苏大学能源与动力工程学院（江苏镇江，212000）
③贵州省经济和信息化委员会安全生产与民爆器材管理处（贵州贵阳，550001）

Author(s):: LIU Jie^①; XU Zhixiang^②; KONG Yu^③; ①Anshun Jiulian Industrial Explosive Co.,Ltd.(Guizhou Anshun, 561006)
②School of Energy and Power Engineering, Jiangsu University (Jiangshu Zhenjiang, 212013)
③ Production Safety & Civil Explosive Materials Administrative Office, Economic & Information Commission of Guizhou Province (Guizhou Guiyang,550001)

关键词:: 乳化炸药; 硝酸铵; 储存稳定性; 破乳; 析晶

Keywords:: emulsion explosives; ammonium nitrate; storage stability; demulsion; crystallization

分类号:: TD235.2+1

DOI:: 10.3969/j.issn.1001-8352.2015.06.009

文献标志码:: A

摘要:: 为研究乳化炸药储存稳定性及其破乳机理，通过乳胶基质储存试验，采用显微照相法观测乳化炸药储存过程中乳状液的变化，采用甲醛还原法测定乳胶基质析晶量随时间的变化，并对硝酸铵的结晶进行理论分析。结果表明,乳化剂是影响乳化炸药储存稳定性的关键因素，提出了炸药乳状液破乳机理;析晶量随时间的关系也表明乳化剂是影响乳胶基质存储稳定性的重要因素。认为使用高分子乳化剂增强油膜厚度和抑制硝酸铵析晶是提高乳化炸药稳定性的有效方法，同时将研究结果与工业生产实际相结合，对得到的结论进行了检验。通过本文的研究,达到了深入认识影响乳化炸药储存稳定性的因素以及破乳机理的目的。

Abstract:: In order to investigate the storage stability and demulsion mechanism of emulsion explosives (EE), stability experiments of EE were carried out, micrograph was used to observe the changes of emulsion droplets, and crystallization process of ammonium nitrate (AN) with time were also tested and analyzed. The results show that surfactant is a key factor to affect the storage stability of EE, which is also confirmed by the relationship of crystallization and time. The demulsion mechanism of EE was proposed. Enhancement of oil film strength with PIBSA surfactant and inhibition crystallization of AN are the fundamental means to increase the storage stability of EE. The experiment results were also analyzed by production of EE. The research have significant implication in the understanding of storage stability and breaking mechanism of EE.

参考文献/References:

［1］MAHADEVAN E G. Ammonium nitrate explosives for civil applications:slurries, emulsions and ammonium nitrate fuel oils ［M］. John Wiley & Sons, 2013.
［2］EXEROWA D,GOTCHEV G,KOLAROV T, et al.Interaction forces in thin liquid films stabilized by hydrophobically modified inulin polymeric surfactant 2. Emulsion films［J］. Langmuir, 2007, 23(4):1711-1715.
［3］TIKHONOV A M , PATEL H , GARDE S, et al.Tail ordering due to headgroup hydrogen bonding interactions in surfactant monolayers at the wateroil interface［J］.The Journal of Physical Chemistry B,2006,110(39): 19093-19096.
［4］MAHESHWARI R, DHATHATHREYAN A. Investigation of surface properties of amino acids: polarity scale for amino acids as a means to predict surface exposed residues in films of proteins ［J］.Journal of Colloid and Interface Science, 2004,277(1):79-83.
［5］CHATTOPADHYAY A K, GHAICHA L, OH S G, et al, Salt effects on monolayers and their contribution to surface viscosity［J］.The Journal of Physical Chemistry, 1992,96(15):6509-6513.
［6］MASALOVA I, MALKIN A Y.A new mechanism of aging of highly concentrated emulsions: correlation between crystallization and plasticity［J］.Colloid Journal, 2007, 69(2):198-202.
［7］MASALOVA I, MALKIN A Y, FERG E,et al.Evolution of rheological properties of highly concentrated emulsions with aging—Emulsiontosuspension transition［J］.Journal of Rheology(1978present)，2006,50(4):435-451.
［8］MASALOVA I, FOUDAZI R, MALKIN A Y. The rheology of highly concentrated emulsions stabilized with different surfactants［J］.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2011,375(1):76-86.
［9］TSHILUMBU N N,FERG E E, MASALOVA I. Instability of highly concentrated emulsions with oversaturated dispersed phase. Role of a Surfactant1［J］.Colloid Journal, 2010,72(4):569-573.
［10］MUDEME S, MASALOVA I, HALDENWANG R.Kinetics of emulsification and rheological properties of highly concentrated explosive emulsions［J］.Chemical Engineering and Processing: Process Intensification, 2010,49(5):468-475.
［11］GANGULY S, MOHAN V K, BHASU V C J, et al. Surfactantelectrolyte interactions in concentrated waterinoil emulsions:FTIR spectroscopic and lowtemperature differential scanning calorimetric studies［J］. Colloid and Surfaces, 1992, 65(4):243-256 .
［12］TADROS T F. Emulsion science and technology:a general introduction［M］. WileyVCH Verlag GmbH & Co. KGaA,2009.
［13］TADROS T F. Emulsion formation and stability［M］.First Edition. John Wiley & Sons,2013.
［14］唐睿康.表面能与晶体生长/溶解动力学研究的新动向［J］.化学进展,2005,17(2):368-376.
TANG R K.Progress in the studies of interfacial energy and kinetics of crystal growth/dissolution［J］.Progress in Chemistry, 2005,17(2):368-376.

相似文献/References:

[1]熊家权,林华岱.影响乳化炸药性能因素探讨[J].爆破器材,2010,39(01):13.
　XIONG Jiaquan,LIN Huadai.Discussion on Factors Affecting the Performance of Emulsion Explosive[J].EXPLOSIVE MATERIALS,2010,39(06):13.
[2]黄铁飞,荣光富,杨曙光,等.乳化剂对混装乳化炸药质量性能的影响及实践应用[J].爆破器材,2010,39(02):14.
　HUANG Tiefei,RONG Guangfu,YANG Shuguang,et al.Effect of Emulsifier on the Quality Performance of Emulsion Explosive and Its Practical Application[J].EXPLOSIVE MATERIALS,2010,39(06):14.
[3]阮华.用正交试验方法优化乳化炸药设计[J].爆破器材,2010,39(02):23.
　RUAN Hua.The Optimization of the Emulsion Explosive by Using Orthogonal Experimental Method[J].EXPLOSIVE MATERIALS,2010,39(06):23.
[4]李瑛,柏存增.不同敏化条件下乳化炸药减敏的实验研究[J].爆破器材,2011,40(01):19.
　LI Ying,BO Cunzeng.Experimental Research on Reducing Sensitivity of Emulsion Explosive in Different Sensitization Methods[J].EXPLOSIVE MATERIALS,2011,40(06):19.
[5]张建亮.露天改性铵油炸药配方的研制和应用[J].爆破器材,2011,40(01):22.
　ZHANG Jianliang.Research on Development and Application of Opencast Modified Ammonium Nitrate Explosive[J].EXPLOSIVE MATERIALS,2011,40(06):22.
[6]郭敏,贾海亮,原海青,等.高温敏化工艺乳化炸药储存期影响因素分析[J].爆破器材,2011,40(01):24.
　GUO Min,JIA Hailiang,YUAN Haiqing,et al.Analysis of Influencing Factors on the Storage of Emulsion Explosives by High-temperature Sensitization[J].EXPLOSIVE MATERIALS,2011,40(06):24.
[7]龚兵,熊代余,李国仲,等.BCJ多功能装药车的研究与应用[J].爆破器材,2010,39(03):12.
　GONG Bing,XIONG Daiyu,LI Guozhong,et al.Development and Application of BCJ Multi-function Charge Truck[J].EXPLOSIVE MATERIALS,2010,39(06):12.
[8]王军,王越胜.故障树分析法在乳化炸药生产中的应用概述[J].爆破器材,2010,39(03):15.
　WANG Jun,WANG Yuesheng.Application of Fault Tree Analysis in the Production of Emulsion Explosive[J].EXPLOSIVE MATERIALS,2010,39(06):15.
[9]张翠英,吴龙祥,王永斌.新型高效乳化器的研制及应用[J].爆破器材,2010,39(05):12.
　ZHANG Cuiying,WU Longxiang,WANG Yongbin.Research and Application of the New-type Efficient Emulsifier[J].EXPLOSIVE MATERIALS,2010,39(06):12.
[10]马耀川.全连续化乳化生产线影响炸药爆炸性能的几个因素[J].爆破器材,2010,39(05):20.
　MA Yaochuan.Several Factors Affecting the Performance of Emulsion Explosive in Continuous Production Line[J].EXPLOSIVE MATERIALS,2010,39(06):20.
[11]刘杰,莫元玲,占必文.硝酸钠及亚硝酸钠对乳化炸药生产安全性的影响[J].爆破器材,2011,40(04):9.
　LIU jie,MO Yuanling,ZHAN Biwen.Influence of Sodium Nitrate and Sodium Nitrite on the Production Safety of Emulsion Explosive[J].EXPLOSIVE MATERIALS,2011,40(06):9.

备注/Memo

备注/Memo:: 收稿日期：2015-03-12
作者简介：刘杰（1971~），男，高级工程师，主要从事工业炸药技术管理与研究工作。E-mail:liuj19711976@126.com
通信作者：徐志祥（1983~），男，讲师，主要从事工业炸药配方及安全性研究。E-mail:xzx820708@163.com

常用功能

工具/Tools

统计/Statistics

摘要浏览/Viewed1520
全文下载/Downloads629
评论/Comments

更新日期/Last Update: 2015-12-03