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为了提高键合剂对多种含能填料的适应性,改善固体推进剂的界面粘接强度,设计开发了一种多功能遥爪键合剂。通过分子动力学模拟和应用评估,对键合剂性能进行了研究。结果表明,该多功能遥爪键合剂对多种填料具有较好的键合作用,通过调整键合剂分子主链结构,可以适应不同的黏合剂体系。并且相对于“三爪”型键合剂,“两爪”型键合剂的支化度更小,在黏合剂中的扩散更容易,键合剂向界面迁移的能力越强,键合作用越好。“,”In order to improve the adaptability of bonding agent to various energy‑containing fillers and modify the interfacial bonds of solid propellants, a kind of multifunction telechelic bonding agent was designed and prepared. The bonding effectiveness was studied by molecular dynamics simulations and experimental evaluations. The results show that this bonding agent can show decent interactions with various energy‑containing fillers. By altering the molecule backbone of this bonding agent, it can adapt to different adhesive systems. As compared to the three‑claw bonding agent, the two‑claw one has fewer branches, better diffusivity in adhesive, higher transferability toward interface, and better bonding effectiveness.