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DNTF基熔铸炸药的性能研究 总被引:21,自引:12,他引:21
通过相图分析,研究了DNTF/TNT作为液相载体炸药的可能性,并对DNTF/TNT、DNTF/TNT/HMX以及DNTF/TNT/HMX/A1体系的典型配方进行了能量表征和讨论。结果表明,DNTF基熔铸炸药是一种很有前途的高能混合炸药,可满足多种武器装药的高威力要求。 相似文献
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为了提高TNT/HMX熔铸炸药的装药质量,将HMX进行微/纳米粒度级配后应用于TNT基熔铸炸药中。分别采用场发射扫描电子显微镜(FESEM)和固体密度排水法研究了HMX微/纳米粒度级配对TNT/HMX(质量比为40∶60)熔铸炸药的微观结构与密度均一性的影响;测试了含不同HMX微/纳米粒度级配的TNT基熔铸炸药的抗压强度、抗拉强度、撞击感度、摩擦感度和爆速。结果表明,与采用单一粗颗粒HMX(d_(50)=100μm)所制备的TNT基熔铸炸药相比,当采用质量分数15%纳米级HMX(d_(50)=100nm)、15%微米级HMX(d_(50)=5μm)、70%粗颗粒HMX(d_(50)=100μm)时,制备的TNT基熔铸炸药药柱内部缺陷少,密度均一性好,抗压强度提高200%,抗拉强度提高128%,撞击感度降低45.5%,摩擦感度降低46%,爆速增加32m/s,表明综合性能得到明显提高。 相似文献
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一种新型的破甲战斗部装药-聚奥黑炸药是以HMX/RDX二种单质炸药为主体炸药的压装高聚物粘结炸药,其主要特点是可以通过改变HMX/RDX的组成比例,得到不同爆炸能量的系列化产品;更为突出的是,合理选择HMX/RDX比例,使PBX装药具有与HMX相近的高爆炸能量,而成本费用大幅度降低.经过在破甲战斗部中应用试验表明,聚奥黑炸药的装药密度高、破甲威力大,是一种适合装填各类破甲战斗部的新型装药. 相似文献
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一种新型的破甲战斗部装药-聚奥黑炸药是以HMX/RDX二种单质炸药为主体炸药的压装高聚物粘结炸药,其主要特点是可以通过改变HMX/RDX的组成比例,得到不同爆炸能量的系列化产品,更为突出的是,合理选择HMX/RDX比例,使PBX装药具有与HMX相近的高爆炸能量,而成本费用大幅度降低,经过在破甲战斗部中应用试验表明,聚奥黑炸药的装药密度高,破甲威力大,是一种适合装填各类破甲战斗的新型装药。 相似文献
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一种含LLM-105的HMX基低感高能PBX炸药 总被引:4,自引:0,他引:4
研究了不同颗粒形态的LLM-105对HMX的降感作用以及HMX/LLM-105基炸药配方用的黏结体系和钝感体系.设计出一种HMX/LLM-105配方,采用机械感度和冲击波感度以及板痕试验和圆筒试验对其安全性能和爆轰性能进行了测试.结果表明,LLM-105可作为含能钝感剂用于HMX基PBX炸药,该种含LLM-105的HMX基PBX爆速约8700 m/s、爆压34 GPa以上、比动能为1.560 kJ/g,冲击波感度比JOB-9003炸药低10%,是一种新型的低感高能炸药. 相似文献
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含硼金属炸药水下能量的实验研究 总被引:3,自引:1,他引:2
通过水下试验测试了含硼铝、硼镁、硼镁铝合金、硼钛、硼锆等混合金属粉炸药的水下能量,并与相应含铝炸药的水下能量进行了对比.结果发现,以HMX为基金属粉的质量分数20%时,镁粉、镁铝合金与硼粉混合后水下(总能量)比单独使用硼粉时约提高40%;含硼铝质量分数20%的炸药的水下总能量比含铝质量分数20%炸药高约7%;以RDX为基,含硼铝、硼镁、硼镁铝合金质量分数20%炸药的水下总能量比含铝20%的炸药均有提高,其中硼镁达到9%.随着硼铝金属粉含量的增加,水下总能量不断提高,均高于相应含铝炸药,当硼铝金属粉质量分数为35%时达到最高,比含铝35%炸药约高7%,含量40%后开始降低.硼粉与铝粉混合使用,可提高硼粉氧化效率和炸药水下总能量. 相似文献
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对R852。H781、H872、H8718、HMX-159、8021等炸 药进行高温暴露试验,考究其药柱在高温暴露条件下,不可逆尺寸变化和密度变化,并用X光衍射法研究了试验闪后主体炸药的晶体结构变化。 相似文献
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In this paper, emulsion explosives were investigated. Rules for the change of output energy of emulsion explosives with different oxygen balance, aluminum powder content, charge condition, decoupling media etc. were studied by means of an explosion water pool. The p–t curves and peak pressure values were obtained. The effects of these factors on shock wave energy, bubble energy and total energy were given. The results show that output energy of emulsion explosives without aluminum powder is lower than that of standard TNT explosives. The total energy of emulsion explosives with zero oxygen balance is only 86 % of that of TNT. In the experiment, output energy of the explosives tends to increase with the increase of aluminum powder content. With aluminum contents from 10 % to 15 %, the total energy is 1.05 and 1.14 time of that of TNT respectively. Energy efficiency is affected with change of decoupling coefficient and media. 相似文献
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采用溶液-水悬浮法,以F2602为黏结剂,Span-80、Tween-80、PVA、糊精为表面活性剂,制备了HMX基PBX;采用扫描电子显微镜(SEM)、X射线衍射仪(XRD)、差式扫描量热仪(DSC)对其进行了表征和热分析,并测试了其撞击感度。结果表明,加入表面活性剂包覆后未改变HMX的晶体结构;以Span-80为表面活性剂时包覆得到的HMX基PBX表面最光滑,包覆密实且无明显外漏现象;加入表面活性剂Span-80、Tween-80、PVA、糊精后得到的HMX基PBX的表观活化能分别为438.05、217.74、406.64、356.14kJ/mol,与未加表面活性剂的样品相比降低了35.52、255.83、66.93、117.43kJ/mol;加入Span-80的HMX基PBX热爆炸临界温度约上升1℃,表明对PBX的安定性无明显影响,撞击感度特性落高(H50)由44.9cm增加到63.2cm,提高了40.76%。 相似文献
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Xiao W. Chen K. Yang M.-F. Hong X.-W. Li H.-W. Wang B.-L. 《Combustion, Explosion, and Shock Waves》2021,57(2):222-231
Combustion, Explosion, and Shock Waves - In this paper, confined explosions of HMX-based aluminized explosives in a spherical chamber are studied. The effects of aluminum particles on the... 相似文献
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Jingyu Wang Chongwei An Gang Li Lei Liang Wenzheng Xu Kun Wen 《Propellants, Explosives, Pyrotechnics》2011,36(1):34-41
HTPB/CL‐20 castable booster explosives were prepared successfully by a cast‐cured process. Scanning electron microscope (SEM) and the charge density test were employed to characterize the molding effect of HTPB/CL‐20 explosives. The propagation reliability, detonation velocity, mechanical sensitivity, thermal decomposition characteristics and thermal stability of the HTPB/CL‐20 explosives were also measured and analyzed. The results show that, when CL‐20 content is less than 91 wt.‐%, the charges with better molding effect were obtained easily. The critical diameter of HTPB/CL‐20 explosives is less than 1 mm, which exhibits good propagation reliability. When the density of HTPB/CL‐20 charge with 91 wt.‐% CL‐20 is 1.73 g cm−3, its detonation velocity can reach 8273 m s−1. Moreover, this kind of explosives has low mechanical sensitivity and good thermal stability. 相似文献
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硼金属化RDX基炸药的热行为 总被引:1,自引:0,他引:1
采用热重(TG-DTG)及高压差示扫描量热(PDSC)技术,考察了含硼金属化RDX基炸药的热行为。研究了不同金属组分对金属化炸药热分解性能的影响,计算获得热分解的动力学参数表观活化能及指前因子。结果表明,RDX分解及其分解产物能"活化"硼粉,使之在高温下更易被氧化或氮化,而RDX对Al粉或Mg粉氧化反应的影响相对较小;B、Al和Mg金属粉的加入导致RDX的热分解反应表观活化能和速率降低,DSC(PDSC)和DTG峰温滞后,DSC的量热值下降。 相似文献
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A nanometric HMX-based polymer-bonded explosive (PBX) is prepared by using the solution-water slurry technique. The resultant PBX is composed of 94% of HMX, 5% of fluororubber Viton, and 1% of wax. The properties of the nanometric HMX-based PBX, such as sensitivity and compressive performance, are comprehensively researched. The results show significant improvement for the nanometric HMX-based PBX as compared to the micron-sized HMX-based PBX. The friction sensitivity, impact sensitivity, and shock sensitivity of the nanometric HMX-based PBX are obviously lower by 30, 48, and 24%, respectively. Moreover, the compressive strength and strain of the nanometric HMX-based PBX are significantly higher by 273 and 33%, respectively. Thus, both the safety and mechanical resistibility of the PBX will significantly benefit from using nanometric HMX. 相似文献
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借助C80微量量热仪研究了多孔粒状铵油炸药、3种常用的重铵油炸药(乳化炸药/多孔粒状铵油炸药质量百分比分别为25/75、50/50、75/25)、乳化炸药的热分解特性,以升温速率0.2 K·min-1时的C80热流速曲线数据为基础,求解了5种炸药试样热分解反应的反应热(ΔH)、表观活化能(Ea)、指前因子(lnA)等热力学和动力学参数。结果表明:乳化炸药的存在抑制了多孔粒状铵油炸药的热分解反应,使其开始发生热分解反应的温度被明显提高。重铵油炸药的表观活化能和放热反应开始温度均高于多孔粒状铵油炸药和乳化炸药,由此得出重铵油炸药的热稳定性高于多孔粒状铵油炸药和乳化炸药的热稳定性。 相似文献