潮捷;黄文尧;吴红波;檀鑫;孙宝亮;黄孟文;章万龙;
CHAO Jie;HUANG Wen-yao;WU Hong-bo;TAN Xin;SUN Bao-liang;HUANG Meng-wen;ZHANG Wan-long;School of Chemical Engineering, Anhui University of Science and Technology;China Coal Science and Industry Group Huaibei Blasting Technology Research Institute Co., Ltd.;Huainan Shuntai Chemical Industry Co., Ltd.;

• 1:安徽理工大学化学工程学院
• 2:中煤科工集团淮北爆破技术研究院有限公司
• 3:淮南舜泰化工有限责任公司

摘要(Abstract)：

为研究不同形状和含量的铝粉对化学敏化水胶炸药性能的影响,在水胶炸药中分别添加质量分数为1%、2%、3%、4%片状和粒状铝粉。对比分析添加不同的质量分数及不同形状铝粉水胶炸药的爆热、爆速和猛度变化情况。结果表明:随着铝粉质量分数从0%增加到4%,炸药的爆热增加,爆速和猛度下降。当炸药中分别添加质量分数为4%的片状铝粉和粒状铝粉的水胶炸药比不含铝粉的水胶炸药,其爆热分别提高了17.99%、16.54%,爆速分别降低了15.12%、13.27%,猛度分别下降了18.18%、16.78%。
In order to study the influence of different shapes and contents of aluminum powder on the properties of chemical sensitized water gel explosive, flake and granular aluminum powders with mass fractions of 1%, 2%, 3% and 4% were added into the water gel explosive respectively. The changes of detonation heat, detonation velocity and brisance of the water glue explosive with different mass fractions and different shapes of aluminum powder were compared and analyzed. The results show that with the increase of the mass fraction of aluminum powder from 0% to 4%, the heat of detonation increases, and the detonation velocity and brisance decrease. Compared with the water glue explosive without aluminum powder, the detonation heats of the water glue explosive with 4% mass fraction of flake aluminum powder and that with 4% granular aluminum powder increase by 17.99% and 16.54%, the detonation velocities decrease by 15.12% and 13.27%, and the brisance decreases by 18.18% and 16.78%, respectively.

关键词(KeyWords)： 铝粉;水胶炸药;爆热;爆速;猛度
aluminum powder;water gel explosives;explosive heat;detonation velocity;brisance

Abstract:

Keywords:

基金项目(Foundation): 国家自然科学基金资助项目(11872002);; 安徽高校自然科学研究项目基金资助项目(KJ2019A0121)

作者(Authors): 潮捷;黄文尧;吴红波;檀鑫;孙宝亮;黄孟文;章万龙;
CHAO Jie;HUANG Wen-yao;WU Hong-bo;TAN Xin;SUN Bao-liang;HUANG Meng-wen;ZHANG Wan-long;School of Chemical Engineering, Anhui University of Science and Technology;China Coal Science and Industry Group Huaibei Blasting Technology Research Institute Co., Ltd.;Huainan Shuntai Chemical Industry Co., Ltd.;

DOI: 10.19931/j.EB.20210059

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