摘要
依据HTPB复合推进剂界面特性 ,提出改变固化反应温度与时间来调节交联程度 ,使系统的官能团逐步进行化学反应 ,形成化学键和氢键 ,改善了生成物的力学性能。论述了预固化技术和粘接模型。将其应用于固体发动机推进剂 衬层界面粘接、发动机装药成型和推进剂药柱修补技术 ,经地面热试车和飞行考核 ,以及试件的十年储存试验考核 ,性能可靠 。
Based on interface properties of HTPB (hydroxy terminated polybutadiene propellant) propellant, the cross linking level is regulated through the temperature and time of cure reaction. The chemical reaction takes place gradually in remainder functional groups of the system to form chemical bonds and hydrogen bond, so as to improve the mechanical properties of the resultant. Pre-cure technique and bonding model are described in the paper. They can be used in propellant-liner bonding, propellant loading and integral repairing of the propellant grain of the solid rocket motor (SRM). These test results have been qualified by the successful static firing tests, flight tests of motors and storage tests of specimens for ten years. The performance of the motor meets the design requirements with good reproducibility.
出处
《固体火箭技术》
EI
CAS
CSCD
北大核心
2004年第4期298-303,共6页
Journal of Solid Rocket Technology