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| 凝胶模板法制备RDX/B/Fe_2O_3纳米复合含能材料 | |
| 引用本文: | 王瑞浩,晋日亚,王金英,张景林,王敦举. 凝胶模板法制备RDX/B/Fe_2O_3纳米复合含能材料[J]. 含能材料, 2015, 23(5): 410-414 |
| 作者姓名: | 王瑞浩 晋日亚 王金英 张景林 王敦举 |
| 作者单位: | 1. 中北大学化工与环境学院,山西太原030051;西南科技大学国防科技学院,四川绵阳621000 2. 中北大学化工与环境学院,山西太原,030051 3. 西南科技大学国防科技学院,四川绵阳,621000 |
| 摘 要: | 采用溶胶凝胶法制备Fe2O3凝胶模板,加入黑索今(RDX)和硼(B)粉,制得RDX/B/Fe2O3复合湿凝胶,利用超临界CO2流体干燥工艺对其进行干燥,得到RDX/B/Fe2O3纳米复合含能材料。讨论了湿凝胶制备和超临界CO2流体干燥工艺中对凝胶结构和粒子大小的影响因素,获得了最佳制备工艺条件:Fe3+浓度0.20mol·L-1,n(Fe3+)∶n(C3H6O)=1∶15,超临界流体的温度40℃和压力10 MPa,干燥釜升压时CO2流入的速率15L·h-1,干燥釜平衡换气时CO2流体的流速2L·h-1。在此条件下制备得到纳米复合含能材料RDX/B/Fe2O3(质量比为90∶2∶8),利用扫描电镜,差示扫描量热分析了样品的微观形貌和热分解特性,测试了机械感度。结果表明,所得纳米含能材料粒度为30~50nm;RDX/B/Fe2O3分解放热起始温度比原料RDX提前了7℃,放热量提高了885J·g-1,机械感度H50=40.8cm。 |
| 关 键 词: | RDX/B/Fe2Os纳米复合含能材料 Fe2O3凝胶模板 超临界CO2 工艺优化 扫描电镜 机械感度 热分解 |
| 收稿时间: | 2014-07-24 |
| 修稿时间: | 2014-09-26 |
Preparation of RDX/B/Fe2O3 Nano-composite Energetic Material with Gel-Template Method |
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| WANG Rui-hao,JIN Ri-y,WANG Jin-ying,ZHANG Jing-lin and WANG Dun-ju. Preparation of RDX/B/Fe2O3 Nano-composite Energetic Material with Gel-Template Method[J]. Chinese Journal of Energetic Materials, 2015, 23(5): 410-414 | |
| Authors: | WANG Rui-hao JIN Ri-y WANG Jin-ying ZHANG Jing-lin WANG Dun-ju |
| Affiliation: | College of Chemical Engineering and Environment, North University of China, Taiyuan 030051, China ;School of National Defence Science and Technology, Southwest University of Science and Technology, Mianyang 621000, China,College of Chemical Engineering and Environment, North University of China, Taiyuan 030051, China,College of Chemical Engineering and Environment, North University of China, Taiyuan 030051, China,College of Chemical Engineering and Environment, North University of China, Taiyuan 030051, China and School of National Defence Science and Technology, Southwest University of Science and Technology, Mianyang 621000, China |
| Abstract: | |
| Keywords: | nano-composite energetic material RDX/B/Fe2O3 Fe2O3 gel template supercritical CO2 process optimization scanning electron microscopy mechanical sensitivity thermal decomposition |
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