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分子钙钛矿含能材料DAP-4对固体推进剂能量性能的影响

Influence of molecular perovskite energetic material DAP-4 on energetic performance of solid propellants
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摘要 利用NASA–CEA2软件,在标准条件下,分别计算了含DAP–4((C_(6)H_(14)N_(2))[NH_(4)(ClO_(4))_(3)])的HTPB(端羟基聚丁二烯)推进剂、GAP(聚叠氮缩水甘油醚)推进剂、CMDB(复合改性双基)推进剂和NEPE(硝酸酯增塑聚醚)推进剂的能量性能;重点研究了以DAP–4分别替代RDX(黑索今)、HMX(奥克托今)、CL–20(六硝基六氮杂异伍兹烷)、TKX–50(5,5'–联四唑–1,1'–二氧二羟胺)后推进剂能量的变化趋势;对比了4种含DAP–4推进剂的能量性能。结果表明,当推进剂配方中添加DAP–4后,其标准比冲(I_(sp))和特征速度(C^(*))呈线性趋势增加。特别是当配方中只含DAP–4高能填料时,HTPB、GAP、CMDB、NEPE推进剂的I_(sp)分别达到了2617.5、2688.4、2679.4、2708.7N·s/kg,C^(*)分别达到了1604.1、1634.7、1639.1、1654.7m/s,高于目前已知固体推进剂的比冲和特征速度。同时给出了推进剂燃烧温度和燃烧产物平均分子量的数据,通过分析这2个参数的变化,部分解释了添加DAP–4后推进剂I_(sp)和C^(*)的变化机制,为DAP–4在固体推进剂中的应用提供参考。 Using NASA-CEA2 software,the energetic performance of HTPB(hydroxyl-terminated polybutadiene)propellant,GAP(glycidyl azide polyether)propellant,CMDB(composite modified double base)propellant and NEPE(nitrate ester plasticized polyether)propellant containing DAP-4((C_(6)H_(14)N_(2))[NH_(4)(ClO_(4))_(3)])was calculated separately under standard conditions.The energy change trends of the propellants after replacing RDX(hexogen),HMX(octogen),CL-20(hexanitro hexaaza isowurtzitane),TKX-50(5,5'-bitetrazol-1,1'-dihydroxylammonium)with DAP-4 were emphatically investigated.The energetic performance of four types of propellants containing DAP-4 was compared.The results showed that when DAP-4 was added to the propellant formulation,the standard specific impulse(I_(sp))and characteristic velocity(C^(*))increased in a linear trend.Especially,when only DAP-4 energetic filler was included in the formulation,the I_(sp) of HTPB,GAP,CMDB and NEPE propellants reached 2617.5,2688.4,2679.4 and 2708.7N·s/kg,respectively,and the C^(*)reached 1604.1,1634.7,1639.1 and 1654.7m/s,respectively,which were higher than the specific impulses and characteristic velocities of currently known solid propellants.At the same time,the data of propellant combustion temperature and average molecular weight of combustion products were provided.By analyzing the changes of these two parameters,the change mechanism of I_(sp) and C^(*)of the propellants after the addition of DAP-4 was partially explained,which provided a reference for the application of DAP-4 in solid propellants.
作者 陈康宇 宋小兰 宋丹 王毅 安崇伟 Chen Kangyu;Song Xiaolan;Song Dan;Wang Yi;An Chongwei(School of Environment and Safety Engineering,North University of China,Taiyuan 030051,China;China Ordnance Institute of Science and Technology,Beijing 100089,China;School of Materials Science and Engineering,North University of China,Taiyuan 030051,China)
出处 《化学推进剂与高分子材料》 CAS 2024年第4期27-35,共9页 Chemical Propellants & Polymeric Materials
基金 武器装备预研基金(No.6140656020201)。
关键词 DAP–4 分子钙钛矿含能材料 能量性能 固体推进剂 DAP-4 molecular perovskite energetic material energetic performance solid propellant
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