本专利技术的技术方案如下:一种掺氮中空碳纳米材料的制备方法,是以ZnO纳米材料作为自牺牲模板,以三氨基三硝基苯(TATB)作为唯一碳源和氮源,利用化学气相沉积法制备,具体包括如下步骤:取TATB平铺于瓷舟底部,接着将平铺于瓷舟底部的TATB和ZnO纳米材...
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TATB crystal TATB晶体
TATB材料 Energetic material TATB
TATB urethane TATB聚酯胶
Ultrafine TATB 超细TATB
TATB-based PBX TATB基PBX
Sub-micron TATB 亚微米TATB
Energetic material TATB TATB材料
crystal structure of TATB TATB的晶体结构
The ultrafine TATB particles are prepared by high-speed gas impacting method and the shape of ultrafine particles is detected by SEM technique.
采用高速气流碰撞法对TATB进行细化,借助SEM技术对超细TATB粒子形貌进行表征。
The results show that the particle size of core is the principal factor affecting the coat effect of fine TATB-BTF core-shell composite particles.
结果表明,核粒大小是影响超细TATB - BT F核-壳型复合粒子包覆效果的主要因素。
The results show that the wetting capability and the wetting speed of as solution on TATB explosive decreases with increasing of the concentration of as solution.
研究表明,随着聚合物溶液浓度的增加,AS溶液在TATB表面的浸润性变差,浸润速度减小。
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