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活性材料能量释放特性实验评估方法 被引量:13

An Experimental Evaluation Method of Energy Release Characteristics of Reactive Materials
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摘要 为评估与表征活性材料在撞击作用下的能量释放特性,基于VCC实验方法,对动态能量释放特性的测量装置进行了改进,建立了活性材料动态能量及反应效率与准静态压力的函数关系,并针对3种典型活性材料进行了验证。利用压力传感器和高速摄像机获取活性材料发生撞击反应后容器内的准静态压力及火球的变化过程,根据最大准静态压力值计算了活性材料释放的比化学能和反应效率。结果表明,在实验条件及配方相同的条件下,所获得的比化学能及反应效率的一致性均较好,证明该方法可靠。 To evaluate and characterize the energy release characteristics of reactive materials under impact,a dynamic energy release characteristic testing device was improved based on Vented Chamber Calorimetry(VCC)test method.The function relations of dynamic energy of reactive materials,quasi-static pressure and reaction efficiency were established.At the same time,aiming at three typical reactive material samples,the verification was performed.The quasi-static pressure inside the chamber after impact response and fireball change process of reactive materials were acquired by a pressure sensor and a high-speed camera.The specific chemical energy released by reactive materials and reaction efficiency were calculated based on the value of maximum quasi-static pressure.The results show that the consistency of specific chemical energy and reaction efficiency obtained under the same formulation and experimental condition is good,which demonstrates the reliability of this method.
出处 《火炸药学报》 EI CAS CSCD 北大核心 2015年第3期49-53,共5页 Chinese Journal of Explosives & Propellants
基金 国家安全重大基础研究项目
关键词 爆炸力学 活性材料 能量释放特性 准静态压力 比化学能 explosion mechanism reactive materials energy release characteristics quasi-static pressure specific chemical energy
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参考文献11

  • 1Lee R J,Mock W J,Carney J R,et al.Reactive mate- rial study[C]//Shock Compression of Condensed Mat- ter.Los Angeles:American Physical Society,2005:169-174.
  • 2Nelson D B,Truitt R M,Rasmussen N.Low temper- ature,extrudable,high strength reactive material:US,6962634 B2[P].2005.
  • 3Nelson D B,Tanner R L,Lund G K.High strength reactive material:US,6593410[P].2003.
  • 4Michael T R,Daniel W D,James R H,et al.Reactive material enhanced projectiles and related methods:US,0299323[P].2005.
  • 5吕英迪,郑晓东,陈志强,李洪丽,唐望,石强,邱少君.CVD法制备碳/高活性铝复合材料[J].火炸药学报,2012,35(6):104-106. 被引量:4
  • 6Ames R G,Standardized A.Evaluation technique for reactive warhead fragments[C]//23rd International Symposium on Ballistics.Tarragona;IBC,2007:49-58.
  • 7陈进,肖川,梁安定,等.活性破片毁伤效应的实验研究[C]//2010年火炸药技术学术研讨会.北京:中国兵工学会,2010:384-387.
  • 8Ames R G.Energy release characteristics of impact-in- itiated energetic materials[J].Materials Research So- ciety Matter,2006,896:3-8.
  • 9Ames R G.Vented Chamber Calorimetry for Impact- Initiated Energetic Materials[C]//43rd AIAA Aero- space Sciences Meeting and Exhibit.Nevada:Ameri- can Institute of Aeronautics Astronautics,2005.
  • 10Ames R G,Waggener S S.Reaction efficiencies for impact-initiated energetic materials[C]//32nd Interna- tional Pyrotechnics Seminar.Karlsruhe:[s.n.],2005:180.

二级参考文献17

  • 1Jun N, Andrew M, Andrew S. Novel energetic composite materials[C] // Proceedings of Materials Research Society Symposium. Boston: Materials Research Society, 2006.
  • 2Wang Haifu, Liu Zongwei, Yu Weimin. Impact initiated characteristics of reactive material fragments[C]//Proceedings of 7th International Fall Seminar on Propellants, Explosives and Pyrotechnics. Xi'an: National Natural Science Foundation of China, 2007:123 - 128.
  • 3DE Technologies Inc. Reactive fragment warhead for enhanced neutralization of mortar, rocket, & missile threats[EB/OL]. (2006-05-15). http.. //www. detk. com,.
  • 4Arvind V, Alexander S R, Alexander S M, et al. Complex behavior of self-propagating reaction waves in het erogeneous media[C]//Proceedings of National Aca demic Science. NewYork, USA:[s. n. ], 1998:56-59.
  • 5Richard G A. Energy release characteristics of impactinitiated energetic materials[C]///Proceedings of Materials Research Society Symposium. Boston: Materials Research Society, 2006:78 - 83.
  • 6Richard G A. Vented chamber calorimetry for impact-initiated energetic materials, AIAA 2005 - 279[R]. Reno, Nevada:[s. n. ], 2005.
  • 7Lee R J, Willis M J, Carney J R, et al. Reactive materi als studies[C] // Shock Compression of Condensed Mat ter. Los Angeles: American Physical Society, 2005 92 -96.
  • 8Willis M J, William H H. Impact initiation of rods of pressed polytetrafluoroethylene(PTFE) and aluminum powders[C]//14th APS Topical Conference on Shock Compression of Condensed Matter. Los Angeles: American Physical Society, 2005:98 - 103.
  • 9周栋,黄风雷,姚惠生.PBX炸药粘弹性损伤本构关系研究[J].北京理工大学学报,2007,27(11):945-947. 被引量:11
  • 10Baschung B,Grune D,Licht H H. Combustion of energetic materials[M].New York:Begell House Inc,2002.219-225.

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