1) energetic binder
含能粘结剂
1.
The research and development on energetic binders for propellants abroad are summarized,focusing on the synthesis and applications of several thermoplastic elastomers,such as GAP,polymer of NIMM and copolymer of BAMO/AMMO etc.
综述了近几年火药含能粘结剂的研究,主要介绍了几种热塑性弹性体的合成及性能,其中,GAP基热塑性弹性体、聚NIMMO和BAMO/AMMO共聚物的应用潜力良好。
2.
This paper evaluated that several kinds of the energetic binder have an effect on the energy of explosion for aluminized explosive.
结果表明,含能粘结剂的密度和氧平衡值是影响铝化炸药化学能的主要因素,高密度、高氧平衡值的BAMO/PGN粘结剂可明显地提高铝化炸药水下爆炸的能量水平。
3.
This paper investigated the synthesis methods of the three energetic binders poly(glycidyl nitrate)(PGN),poly(3,3-bis(azidomethyl) oxetane)(PBAMO) and glycidyl azide-r-bis(azidomethyl)oxetane copolymer(BAMO-GAP).
含能粘结剂可作为高聚物粘结炸药(PBX)的组成部分,对PBX的能量和安全性能有着较大的影响,在火炸药中有着重要的应用前景。
2) binder content
粘结剂含量
1.
The effect of binder contents on properties of bonded magnet has been studied.
用环氧树脂粘结剂制备了NdFeB粘结磁体,探讨了粘结剂含量对粘结磁体磁性能和抗压强度的影响规律及机理。
2.
In order to determine the binder content in formulation,a series of experiments had been performed and a formula had been derivedThe formula of binder content calculated with the absorbing capacity and sieve results of mixture was providedMeanwhile,the reliability and the accuracy of the formula were prove
提出了根据焦炭的吸附容量和混合料筛分结果计算粘结剂含量的公式,并验证了其可靠性和准确
3) energetic binder
含能粘合剂
1.
The research of energetic binder BGAP applied in hydroreactive metal fuel
含能粘合剂BGAP在水反应金属燃料中的应用研究
2.
In order to shorten the test cycle of Abel stability and reduce amounts of the nitric ester in production line,the influence of temperature on the stability test result was studied using the NG-based mixed nitric ester and the relevant energetic binder as samples.
为了缩短阿贝尔安定性试验周期,降低硝酸酯生产线上危险品的在制量,以硝化甘油基的混合硝酸酯及其相应的含能粘合剂为试样,通过试验温度对比实验,研究了试验温度对安定性测试结果的影响,结果表明:对于硝化甘油基混合硝酸酯及含能粘合剂,30 min/72℃、15 min/80℃及12 min/82℃三个安定性测试方法是一致的。
3.
It was pointed out that introduction of cyano group into chain of the energetic binder could improve mechanical properties of solid propellant with it.
分析了3,3 双取代氧丁环上两个取代基的类型对其均聚物聚集态的影响,认为在3,3 位进行不对称取代可获得液态含能粘合剂。
4) energetic adhesive
含能胶粘剂
1.
Research progresses of energetic adhesive system for gunpowder;
火药用含能胶粘剂的研究进展
5) nitraza group containing monomer
含能聚醚粘合剂
6) bonding behavior of interfacial adhesive
界面剂的粘结性能
补充资料:含能胶黏剂
分子式:
CAS号:
性质: 是在预聚物分子中带有含能基团的一类固体推进剂粘合剂。能赋予推进剂以更高的能量。含能基团主要有—N3、—ONO2、—N—NO2、—C—NO2和—NF2等。典型的含能胶黏剂有GAP、BAMO聚合物、AMMO聚合物等。这类胶黏剂常温下一般为黏稠液体。分子量1000~4000。p>1.20g/cm3。羟基官能度等于或大于2。用二异氰酸酯或多异氰酸酯进行固化。它们的合成方法一般是先合成带有含能基团的环醚类单体,然后开环聚合成预聚物。它们是提高固体推进剂的一种有效途径。
CAS号:
性质: 是在预聚物分子中带有含能基团的一类固体推进剂粘合剂。能赋予推进剂以更高的能量。含能基团主要有—N3、—ONO2、—N—NO2、—C—NO2和—NF2等。典型的含能胶黏剂有GAP、BAMO聚合物、AMMO聚合物等。这类胶黏剂常温下一般为黏稠液体。分子量1000~4000。p>1.20g/cm3。羟基官能度等于或大于2。用二异氰酸酯或多异氰酸酯进行固化。它们的合成方法一般是先合成带有含能基团的环醚类单体,然后开环聚合成预聚物。它们是提高固体推进剂的一种有效途径。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条