兵工自动化
兵工自動化
병공자동화
ORDNANCE INDUSTRY AUTOMATION
2015年
4期
67-70
,共4页
混合炸药%GAP%力学性能%能量
混閤炸藥%GAP%力學性能%能量
혼합작약%GAP%역학성능%능량
plastic bonded explosives%GAP%mechanical properties%energy
为研制高能量、高性能的混合炸药,引入聚叠氮缩水甘油醚(GAP)作为含能粘结剂。在分析GAP物理、化学性能的基础上,总结前人在 GAP 固化体系力学性能研究和 GAP 在推进剂和混合炸药中的应用等方面的工作。结果表明:引入适当的高聚物与GAP发生共聚,可改善GAP粘接体系的力学性能;将GAP引入混合炸药中,可有效提高混合炸药的能量和改善混合炸药的力学性能。
為研製高能量、高性能的混閤炸藥,引入聚疊氮縮水甘油醚(GAP)作為含能粘結劑。在分析GAP物理、化學性能的基礎上,總結前人在 GAP 固化體繫力學性能研究和 GAP 在推進劑和混閤炸藥中的應用等方麵的工作。結果錶明:引入適噹的高聚物與GAP髮生共聚,可改善GAP粘接體繫的力學性能;將GAP引入混閤炸藥中,可有效提高混閤炸藥的能量和改善混閤炸藥的力學性能。
위연제고능량、고성능적혼합작약,인입취첩담축수감유미(GAP)작위함능점결제。재분석GAP물리、화학성능적기출상,총결전인재 GAP 고화체계역학성능연구화 GAP 재추진제화혼합작약중적응용등방면적공작。결과표명:인입괄당적고취물여GAP발생공취,가개선GAP점접체계적역학성능;장GAP인입혼합작약중,가유효제고혼합작약적능량화개선혼합작약적역학성능。
In order to develop mixed explosive with high energy and high performance, glycidyl azide polymer (GAP) was introduced as the energetic binder. Based on analysis of GAP’s physical and chemical properties, the former research achievements related to mechanical properties of GAP curing system and applications of GAP in propellants and plastic bounded explosive (PBX) were summarized. The result shows that the introduction of appropriate polymer copolymerized with GAP can improve mechanical properties of GAP curing system and the utilization of GAP in PBX can effectively improve PBX’s energy and mechanical property.
