摘要
总结了五种ε-CL-20晶型转变抑制技术,分别为包覆技术、晶型控制剂抑制技术、共晶技术、超声辅助结晶控制技术、溶剂化物形成技术,综述了各种技术的研究现状,分析比较了各种技术的优缺点,其中共晶技术对于晶型转化的抑制率较高。溶剂化物形成技术有一定的局限性,虽然包覆技术、晶型控制剂抑制技术、超声辅助结晶控制技术抑制效率有待提高,但方法简单、易于工业化实现,也适合与其他技术联用。因此,综合考虑认为,未来CL-20转晶抑制研究的重点方向是共晶技术、包覆技术和晶型控制剂抑制技术。
Five possible methods to inhibit ε-CL-20 polymorphic transition were summarized in this paper, including coating, crystal control agent inhibition, ultrasonic assisted crystallization control, co-crystallization and solvate formation. The advantages and disadvantages of these mentioned technologies were also compared. Among them, it is efficient to control the rate of transition inhibition for co-crystal technology. As far as solvate formation technology, it has a certain application limitation. The other three technologies are not as efficient as co-crystallization technology, but those methods are easily for industrialization. Therefore, it was pointed out that the future direction of CL-20 transition inhibition is the co-crystallization technology, coating technology and crystal control agent inhibition technology.
出处
《固体火箭技术》
EI
CAS
CSCD
北大核心
2018年第1期35-40,共6页
Journal of Solid Rocket Technology
基金
国家自然科学基金(21473131
21573173)
关键词
CL-20
晶型转变
抑制技术
CL-20
crystal transformation
inhibition technology
