| 1. | Quick synthesis of bn by the deflageration of energetic material
含能材料爆燃快速合成氮化硼的初步研究 |
| 2. | Research advances in high - nitrogen energetic materials derived from tetrazine
四嗪类高氮含能材料研究进展 |
| 3. | Application development of poly - nitrogen compounds in energetic materials
高氮化合物在含能材料中的应用研究进展 |
| 4. | Chinese journal of energetic materials
含能材料 |
| 5. | The contradiction of energy and stability can be polished by energetic binder and plasticizers . binders are important ingredients of propellants , polymer binder explosives and lova explosives
含能粘结剂和含能增塑剂的使用是解决含能材料能量和安全性能之间矛盾的一个重要技术途径。 |
| 6. | With the development explosives and propellants , the aim of explosives and propellants is high energy and stability . modern weapons grindingly demand energy and stability of energetic material
现代武器的发展,要求作为“能源”的含能材料在具有尽可能高的能量的同时,具有尽可能好的安全性能。 |
| 7. | Propellants , explosives and pyrotechnics , combustion and detonation phenomenon etc , and otherwise related to the r & d of the basic principle , technology , application , diagnostics , modeling etc , for pep as well as combustion and detonation phenomenon
主要内容:推进剂、炸药和烟火药剂的合成、性能表征、配方原则、结构与性能的关系、制备工艺;含能材料的热分析与稳定性;起爆、爆轰及其效应;感度与安全性;试验方法及装置等。 |
| 8. | The development trend in explosives is towards high density , high energy and low sensitivity . the replacement of nitro groups by furoxan groups can result in increase of density , detonation velocity of explosives . so these superior performance of benzofuroxan system compounds have aroused much attention
含能材料的发展趋势是向着高密度、高能低感的方向发展。一个氧化呋咱基代替一个硝基,可以使含能材料密度提高,爆速增加,苯并氧化呋咱类化合物作为炸药所具有的这些优良特性引起了人们的高度兴趣。 |
| 9. | Abstract : the experiment about ignition property of solid e nergetic materials was done by laser which was generated by big powerful laser i nstrument - nd : yag . the influence on the ignition property of difference enery , puls e width and different frequency of laser instrument and different webs of the pr opellant . was studied and analyzed which may be used to do further researches for ignition
文摘:使用大功率nd : yag激光器产生的激光,对固体含能材料的激光点火性能进行了实验研究,分析了不同能量、脉冲宽度、调制频率及药粒尺寸等因素对点火特性的影响,为激光点传火系统的研制提供了实验依据。 |
