实验结果表明,TPB是丁羟推进剂粘合剂体系比较理想的固化催化剂。
The experimental results show that TPB is an ideal curing catalyst of HTPB propellant binder system.
把扩链剂的使用作为调整丁羟推进剂粘合剂网络及其形态结构的一个重要手段。
The use of chain extenders ACTS as an important way to control the morphological structure of HTPB propellants binder matrix.
每颗氧化剂与其周围海绵层中粘合剂组成了特殊双元推进剂。
Every oxidizer and the binder in the sponge around it make up a special binary propellant.
并采用所建立的方法对高能推进剂的含能粘合剂的安全性进行了分析,获得了可应用的结果。
The new method is applied the safety analysis for energetics binder of high energy propellant and success is achieved.
结果表明:由于GAP粘合剂中侧链的影响,使推进剂力学性能水平较低,因而必须对其进行改性。
The results show that the mechanical property level of GAP based propellants is relatively low owing to the effects of side chain in GAP binder, thus, its molecular structure must be modified.
结果表明:在粒径相同的条件下,采用粘合剂为推进剂组分的HTPB,其推进剂药浆粘度相对较低。
The result shows that the viscosity of propellant is lower by the bond of HTPB in the condition of same diameter particles.
聚缩水甘油醚硝酸酯是近期国外重点研究的高能固体推进剂含能粘合剂之一。
The polyglycidyl ether nitrate is one of the energetic binders for high energy propellants researched emphatically in the latest period abroad .
介绍了用可水解粘合剂(PEGA)或热塑性弹性体(TPE)粘合剂制成的新型固体推进剂具有令人瞩目的少污染和可再生使用性能的实例。
At last the example of a new type propellant containing the hydrolytical binder (PEGA) or thermoplastic elastomer binder (TPE) which have little pollution and reusable properties is introduced.
制造推进剂的最后操作是粘合剂的固化。
The final operation in propellant manufacture is the curing of the binder.
因此,PEO可用作硝酸酯增塑推进剂的粘合剂。
Therefore, PEO can be used as the binder of nitrate ester plasticized propellants.
对聚氧化乙烯(peo)为粘合剂硝酸酯增塑的高能推进剂配方力学性能进行了研究。
The mechanical properties of propellants formulation, which contains PEO binder and is plasticized by nitrate ester were studied.
研究了键合剂BS、交联剂JC、固化剂、粘合剂分子量和官能度等因素对推进剂力学性能的影响。
Effects of bonding agent BS, cross-linking agent JC, curing agent, binder molecular weight and functionality on mechanical properties of the propellants were studied.
制造推进剂的最后操作是粘合剂的固化。
This is done because of the ease of handling and cost of manufacturing.
并采用所建立的方法对高能推进剂的含能粘合剂的安全性进行了分析,获得了可应用的结果。
The new method is applied the safety analysis for energetics binder of high energy propellant and success is ach...
并采用所建立的方法对高能推进剂的含能粘合剂的安全性进行了分析,获得了可应用的结果。
The new method is applied the safety analysis for energetics binder of high energy propellant and success is ach...
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