Volume 42 Issue 2
Mar.  2012
Turn off MathJax
Article Contents
LONG Xingping, JIANG Zhihai, LI Zhipeng, WEI Xianfeng, HAN Yong. REVIEW ON THE TEST METHODS OF CONDENSED EXPLOSIVE DETONATION[J]. Advances in Mechanics, 2012, 42(2): 170-185. doi: 10.6052/1000-0992-2012-2-20120205
Citation: LONG Xingping, JIANG Zhihai, LI Zhipeng, WEI Xianfeng, HAN Yong. REVIEW ON THE TEST METHODS OF CONDENSED EXPLOSIVE DETONATION[J]. Advances in Mechanics, 2012, 42(2): 170-185. doi: 10.6052/1000-0992-2012-2-20120205

REVIEW ON THE TEST METHODS OF CONDENSED EXPLOSIVE DETONATION

doi: 10.6052/1000-0992-2012-2-20120205
Funds:  The project was supported by the NSAF Foundation of China (10676120) and the Development Foundation of China Academy of Engineering Physics (2008A0101003).
More Information
  • Corresponding author: LONG Xingping
  • Received Date: 2010-10-22
  • Rev Recd Date: 2011-08-17
  • Publish Date: 2012-03-25
  • Detonation physics is an experimental branch of sciences which is propelled by the development of test methods. In this paper, recent studies of condensed explosive detonation performance were elaborated, and the test techniques of condensed explosive and its application were both systematically presented from optical and electrical aspects. With detailed descriptions and analysis of the progress of test methods, development directions of the measurement and test technique are suggested.

     

  • loading
  • 1 张宝平, 张庆明, 黄风雷. 爆轰物理学. 北京: 兵器工业出版 社, 2001
    2 花成, 黄明, 黄辉, 等. RDX/HMX 炸药晶体内部缺陷表征 与冲击波感度研究. 含能材料, 2010, 18(2): 152-157
    3 赵科佳, 刘明亮, 郁月华, 等. 宽带取样示波器上升时间与带 宽的转换系数研究. 计量学报, 2006, 27(2): 160-163
    4 Voitkiv A B, Najjari B, Ullrich J. Mechanism for electron transfer in fast Ion-Atomic collisions. Physics Review Letters,2008, 101(22): 1-4
    5 Barker L M, Hollenbach R E. Laser interferometer for measuring high velocities of any reflecting surface. Journal of Applied Physics, 1972, 43: 4669-4675
    6 McMillan C F, Goosman D R, Parker N L, et al. Velocimetry of fast surfaces using Fabry–Perot interferometry. Review Scientific Instruments, 1988, 59(1): 1-20
    7 Crouzet B L, Bouriannes R, Baudin G, et al. Ultra-fast optical pyrometer for the measurement of detonating explosive temperature. The European Physical Iournal Applied Physics, 1999, 8(2): 189-194
    8 Gilev S D, Trubachev A M. Detonation properties and electrical conductivity of explosive-metal additive mixtures. Combustion, Explosion, and Shock Waves, 2002, l38(2): 219-234
    9 章冠人, 陈大年. 凝聚炸药起爆动力学. 北京: 国防工业出版 社, 1991
    10 李银成. 非均质炸药冲击起爆和起爆后的行为. 高压物理学 报, 2006, 20(1): 102-108
    11 杨涛, 夏智勋, 雷必文. 发射药在强约束条件下的DDT 特 性. 推进技术, 1995, 6: 66-73
    12 Olsem E M, Rosenberg J T, Kawamoto J D, et al. XDT investigations by computational simulations of mechanical response using a new viscous internal damage model. In: Proceedings of 11th Symposium on Detonation. Snow mall village, Colorado, 1998. 170-178
    13 Urizar M J, Peterson S W, Smith L C. Detonation sensitivity tests. Los Alamos Scientific Laboratory Report, LA-7193-MS, 1978
    14 Liddiand T P. The initiation of burning in high explosives by shock waves. In: Proceedings of 4th Symposium on Detonation. Silver Spring, Maryland, 1965. 487-495
    15 Gittings E F. Initiation of a solid high explosive by a shortduration shock. In: Proceedings of 4th Symposium on Detonation. Silver Spring, Maryland, 1965. 373-380
    16 董海山, 周芬芬. 高能炸药及相关物性能. 北京: 科学出版 社, 1989
    17 Campbell A W, DavisWC, Travis J R. Shock initiation of detonation in liquid explosives . Physics of Fluids, 1961,4(4): 498
    18 Bernecker R R, Sandusky H W, Clairmont A R, et al. Deflagration to detonation transition studies of porous explosive charges in plastic tubes. In: Proceedings of 7th Symposium on Detonation.Annapolis, Maryland, 1981. 119-142
    19 Bernecker R R, Price D. Burning to detonation transition in porous beds of a high-energy propellant. Combustion and Flame, 1982, 48: 219-231
    20 Green L G, James E, Lee E L, et al. Delayed detonation in propellants from low velocity impact. In: Proceedings of 7th Symposium on Detonation. Annapolis, Maryland,1981. 256-264
    21 柯加山, 陈朗, 冯长根. 低冲击条件下凝聚炸药延迟起爆现象 的研究进展. 火炸药学报, 2002, 20: 35-38
    22 Jameson R L, Hawkins A. Shock velocity measurements in inert monitors placed on several explosives. In: Proceedings of 5th Symposium on Detonation. Pasadena, California,1970. 23-30
    23 Rigdon J K, Akst I B. An analysis of the “aquarium technique” as a pression detonation pressure measurement gauge. In: Proceedings of 5th Symposium on Detonation. Pasadena, California, 1970. 48-54
    24 Gustavsen R L, Sheffield S A, Alcon R R, et al. Embedded electromagnetic gauge measurements and modeling of shock initiation in the TATB based explosives LX-17 and PBX 9502. Furnish M D, Thadhani N N, Horie Y. In: Shock Compression of Condensed Matter-2001. American Institute of Physics (AIP). 2000. 1019-1022
    25 Fuller P J A, Price J H. Electrical conductivity of manganin andiron at high pressures. Nature, 1962, 193(1):262-263
    26 阎军, 徐更光, 于长青. 光纤光谱技术在炸药爆温测量中的应 用. 北京理工大学学报, 2000, 20(4): 492-495
    27 Schmidt S C, Moore D S, Shaner J W. Raman spectroscopies in shock-comressed materials. In: Asay J R, Graham R A, Straub G K. eds. Shock Waves in Condensed Matter-1983. North-Holland: University of Michigan,1984. 293-302
    28 Bloomquist P D. Thermocouple temperature measurements in shock intiated PBX-9404. In: Proceedings of 7th Symposium on Detonation. Annapolis, Maryland, 1982.1004-1009
    29 蒋小华. 有氧化剂含铝炸药爆轰特征研究: [硕士论文]. 北 京: 北京理工大学, 2003
    30 Tasker D G, Granholm R H, Lee R J. The fast measurement of electrical conductivity structure within the detonation zone of condensed explosive. In: Schmidt S C, Holmes N C. eds. Shock Waves in Condensed Matter. Elsevier Science Publishers, Amsterdam, 1987. 561-564
    31 王翔. 高能炸药爆温及反应区结构研究: [硕士论文]. 长沙: 国防科学技术大学, 2005
    32 Bdzil J B, Stewart D S. Modeling two-dimensional detonation with detonation shock dynamics. Physics Fluids A, 1989 , 1(7): 126121267
    33 柏劲松, 李平, 钟敏, 等. 以DSD 理论和LS 方法为基础的 程序燃烧法. 爆炸与冲击, 2008, 28(5): 402-406
    34 吴艳红. 非均质凝聚态炸药冲击波临界起爆现象研究: [博士 论文]. 长沙: 湖南大学, 2006
    35 黄毅民, 鲁斌, 韩勇. TATB 基PBX 炸药拐角实验与数值模 拟. 见: 第八届全国爆炸力学学术会议文集, 井冈山, 2007
    36 Bdzil J B, Stewart D S. Detonation shock dynamics: the onion-skin geometry. In: Los Alamos Internal Report, M-9-QR-86-3, 1986
    37 卢校军, 王蓉, 黄毅民, 等. 两种含铝炸药做功能力与JWL 状态方程研究. 含能材料, 2005, 13(3): 144-147
    38 陈朗, 龙新平, 冯长根, 等. 含铝炸药爆轰. 北京: 国防工业 出版社, 2004
    39 Smith L C. On brisance and plate-denting test for the estimation of detonation pressure. Explsivstoffe, 1967, 5:106-110
    40 Yeh Y, Cummins H Z. Localized fluid flow measurements with an He-Ne laser spectrometer. Applied Physics Letters,1964, 4(10): 176-178
    41 Munson D E, Barker L M. Dynamically determined pressure-volume relationships for aluminum, copper and lead. Journal of Applied Physics, 1966, 37(4): 1652-1660
    42 Oswald R B, Mclean D R, Schallhorn D R, et al. OneDimensional thermoelastic response of solids to pulsed energy deposition. Journal of Applied Physics, 1971, 42(8):3463-3474
    43 Goosman D R. Analysis of the laser velocity interferometer. Journal of Applied Physics, 1975, 46(8): 3516-3524
    44 Hemsing W F. Velocity interferometer (VISAR) modification. Review Scientific Instruments, 1979, 50(l): 73-78
    45 Levin L, Tzach D. Fiber optic velocity interferometer with very short coherence length light source. Review Scientific Instruments, 1996, 67(4): 1434-1437
    46 Strand O T, Berzins L V, Goosman D R, et al. Velocity using heterodyne techniques. UCRL-CONF-206034, 2004
    47 CAEP-IFP-DISAR-01 全光纤激光干涉测速仪. 爆炸与冲 击, 2009, 4: 443
    48 龙新平. VLW 爆轰产物状态方程及纳米基铝粉含铝炸药爆 轰特性研究: [博士论文]. 北京: 北京理工大学, 1999
    49 何碧, 蒋小华, 李泽仁, 等. 用双灵敏度VISAR 测试爆炸箔 起爆器的飞片速度. 爆炸与冲击, 2005, 25(1): 31-34
    50 李志鹏, 黄毅民, 龙新平, 等. 大板实验中TATB 基炸药爆 轰波的传爆特性. 火炸药学报, 2007, 30(2): 26-29
    51 彭其先, 马如超, 刘俊, 等. VISAR 测试技术研究炸药反应 区厚度. 流体力学实验与测量, 2003, 17(1): 43-45
    52 Weng J D, Tan H, Wang X, et al. Optical-fiber interferometer for velocity measurements with Pico second resolution. Applied Physics Letters, 2006, 89(11101): 1-3
    53 王德田, 李泽仁, 吴建荣, 等. 光纤位移干涉仪在爆轰加载飞 片速度测量中的应用. 爆炸与冲击, 2009, 29(1): 105-108
    54 Gibson F C, Bowser M L, Summers C R. Use of an electrooptical method to determine detonation temperature in high explosives. Journal of Applied Physics, 1958, 29(4):628-632
    55 He X C, Han C B, Kang S F. The measurement of detonation temperature of condensed explosives with Two Colour-Optical Fiber Pyrometer. In: Proceedings of 8th Symposium on Detonation. Albuquerque, New Mexico,1985. 567-574
    56 Kato Y, Tanaka K, Sakurai T. Detonation temperature of nitromethane and some solid high explosives. In: Proceedings of 8th Symposium on Detonation. Albuquerque, New Mexico, 1985. 558-565
    57 李佳, 庞其昌, 任克惠, 等. 瞬时多光谱爆温测量系统. 光子 学报, 2000, 29(10): 937-941
    58 白永林, 任克惠. 炸药爆轰温度的瞬时多光谱测量. 光子学 报, 2003, 32(7): 868-871
    59 郭学永, 李秀丽, 张黎明, 等. 非理想炸药爆炸产物温度的光 谱法测试. 南京理工大学学报, 2007, 31(5): 547-650
    60 孙承纬, 卫玉章, 周之奎. 应用爆轰物理. 北京: 国防工业出 版社, 2000
    61 Persson P A, Andersson B. A technique for detailed timeresolved radiation measurements in the reaction zone. In: Proceedings of 4th Symposium on Detonation. Silver Spring, Maryland, 1962. 602-608
    62 Voskoboinikov I M, Gogulya M F. Radiation of the shock front in a liquid near the interface with a detonating charge. Khimicheskaya Fizika (Russian Journal of Chemical Physics), 1984, 3: 7
    63 Lubyatinsky S N, Loboiko B G. Detonation reaction zones of solid explosives. In: Proceedings of 11th Symposium on Detonation. Snow Mall Village, Colorado, 1998. 836-844
    64 赵同虎, 张新彦, 李斌. 用光电法研究钝感炸药JB-9014 反 应区结构. 高压物理学报, 2002, 16(2): 111-118
    65 韩勇, 黄辉, 黄毅民, 等. 含铝炸药圆筒试验与数值模拟. 火 炸药学报, 2009, 32(4): 14-17
    66 汤铁钢, 谷岩, 李庆忠, 等. 爆轰加载下金属柱壳膨胀破裂过 程研究. 爆炸与冲击, 2003, 23(6): 529-533
    67 龙新平, 韩勇, 蒋治海, 等. 炸药爆轰驱动水初期过程的试验 及数值模拟. 爆炸与冲击, 2010, 30(1): 12-16
    68 王福华. 纹影技术在侧向后喷流实验中的应用. 南京理工大 学学报, 2005, 29(3): 334-336
    69 Thomas G O, Jones A. Some observations of the jet initiation of detonation. Combustion and Flame, 2000, 120(3):392-398
    70 胡栋, 韩肇元, 张寿齐, 等. 炸药爆炸变形和首次破碎的研究. 高压物理学报, 2004, 3: 198-202
    71 畅里华, 谭显祥, 汪伟, 等. 纹影技术用于爆轰与冲击波物理 实验研究. 激光与光电子学进展, 2006, 43(12): 58-61
    72 Ferm E N, Morris C L, Quintana J P, et al. Proton radiography examination of unburned regions in PBX-9502 corner turning experiment. Furnish M D, Thadhani N N, Horie Y. Shock Compression of Condensed Matter-2001, American Institute of Physics (AIP). 2001. 966-969
    73 Smilowitz L, Henson1B F, Romero J, et al. Proton radiography of a thermal explosion in PBX9501. In: Elert M, Furnish M D, Chau R, et al. eds. Shock Compression of Condensed Matter-2007, American Institute of Physics (AIP). 2007. 968-972
    74 郭学永, 惠君明, 谢立峰. 燃料爆炸抛撒过程的实验研究. 高 压物理学报, 2005, 19(2): 120-126
    75 代晓淦, 向永. 两种塑料粘结炸药的Steven 试验及撞击感 度研究. 含能材料, 2006, 14(1): 38-41
    76 马燮圻, 计忠瑛, 王正荣, 等. 高速实时全息干涉摄影在固体 火箭推进剂燃烧研究中的应用. 兵工学报, 1986, 4: 58-62
    77 刘常龄, 袁永华. 高速微粒子场的全息诊断技术. 高速摄影 与光子学, 1989, 18(1): 42-45
    78 龚敏, 王德胜, 黎剑华. 全息干涉法在条形药包离面位移场 研究中的应用. 爆炸与冲击, 2005, 25(3): 227-231
    79 Zaitzev V M, Pokhil P F, Shvedov K K. Electromagnetic method for measurement of explosion product velocity. Doklady Akademii Nauk(DAN) SSSR, 1960, 132(6): 1339-1340
    80 Sheffield S A, Gustavsen R L, Alcon R R. In-situ magnetic gauging technique used at LANL-method and shock information obtained. In: Furnish M D, Chhabildas L C, Hixson R S. eds. Shock Compression of Condensed Matter-1999. American Institute of Physics (AIP). 2000.1043-1048
    81 张振宇, 王志兵, 卢芳云, 等. JO-9159 炸药的初始密度对 爆轰波反应区宽度影响的实验研究. 高压物理学报, 1999,13(4): 268-271
    82 李志鹏, 龙新平, 黄毅民, 等. 用组合式电磁粒子速度计研究 JOB-9003 炸药的冲击起爆过程. 爆炸与冲击, 2006, 26(3):269-272
    83 王圣平, 陈丕琪. U 形电磁速度计测量爆轰参数时影响结果 的两个因素. 爆炸与冲击, 1983, 1: 76
    84 Erickson L M, Johnson C B, Parker N L, et al. The electromagnetic velocity gauge: use of multiple gauges, time response, and flow perturbations. In: Proceedings of 7th Symposium on Detonation. Naval Surface Warfare Center Report NSWC MP 82-334, 1982. 1062
    85 Cau J F. Inappropriate use of inclined electromagnetic velocity gauges in explosive. In: Proceedings of 10th Symposium on Detonation. Office of Naval Research Report ONR 33395-12, 1993. 224
    86 Jacobs S J, Edwards D J. Experimental study of the electromagnetic velocity gauge technique. In: Proceedings of5th Symposium on Detonation. Office of Naval Research Report No. ACR184, 1989. 413
    87 Vorthman J E, Andrews G, Wackerle J. Reaction rates from electromagnetic gauge data. In: Proceedings of 8th Symposium on Detonation. Office of Naval Research, Report NSWC MP-86-194, 1986. 99
    88 Sheffield S A, Gustavsen R L, Alcon R R. In-situ magnetic gauging technique used at LANL-method and shock information obtained. In: Furnish M D, Chhabildas L C, Hixson R S. eds. Shock Compression of Condensed Matter–1999. American Institute of Physics (AIP), 2000.1043-1048
    89 Leiper G A, Kirby I J, Hackett A. Determination of reactionrates in intermolecular explosives using the electromagnetic particle velocity gauges. In: Proceedings of 8th Symposium on Detonation. Office of Naval Research, Report NSWC MP-86-194, 1986. 187
    90 Gustavsen R L, Sheffield S A, Alcon R R, et al. Initiation of EDC-37 measured with embedded electromagnetic particle velocity gauges. In: Furnish M D, Chhabildas L C, Hixson R S. eds. Shock Compression of Condensed Matter–1999. American Institute of Physics (AIP). 2000.879-882
    91 Lisell E. On Trycket Inflytande pa Elektriska Ledningsmotstander hos Metatter Samt En ny Metod Att Mata Hoga Tryck. Swedish, Uppsala Universitets Arsskrift,1903. 1
    92 Urtiew P A, Cook TM, Maienschein J L, et al. Shock sensitivity of IHE at elevated temperature. Paper Summaries of the Tenth International Detonation Symposium. Boston, MA, 1993. 139
    93 池家春. 锰铜压阻传感器在传爆序列研究中的应用. 火工品,1989, 1: 281-287
    94 梁增友, 黄风雷, 段卓平, 等. PBX 炸药及其模拟材料冲击 损伤的试验研究. 弹箭与制导学报, 2008, 28(1): 131-134
    95 路光明, 杜志明, 段卓平, 等. 用锰铜压阻法测量雷管内部爆 压. 火工品, 2000, 3: 6-8
    96 严楠, 韩秀凤, 蔡瑞娇. 锰铜压阻法测量雷管输出的压力波 形分析. 含能材料, 2004, 12(5): 257-263
    97 韩秀凤, 武玉红. 小尺寸非电火工元件锰铜压阻法测试技术 研究. 火工品, 2008, 5: 34-36
    98 徐新春, 焦清介, 曹雄. 小尺寸装药爆轰在有机玻璃隔板中 的衰减规律. 含能材料, 2009, 17(4): 431-435
    99 杜晓松, 杨邦朝, 王卉. 薄膜式锰铜传感器—— 一种新型的 超高压力传感器. 仪表技术与传感器, 2000, 1: 4-6
    100 段卓平, 关智勇, 黄正平. 箔式高阻值低压锰铜压阻应力计 的设计及动态标定. 爆炸与冲击, 2002, 22(2): 169-172
    101 Kawai H. The piezoelectricity of poly vinylidene fluoride. Journal of Applied Physics, 1969, 8(7): 975-976
    102 Bauer F. Method and device for polarizing ferroelectric materials. US Patent, Patent Number: 4, 611, 260, Date of Patent: Sep.9, 1986
    103 Lee L M, Johnson D E, Bauer F, et al. Piezoelectric polymer PVDF application under soft X-ray induced shock loading. In: Schmidt S C, Dick R D, Forbes J W. eds. Shock Compression of Condensed Matter-1991, Amsterdam: North-Holland publisher, 1991. 879-882
    104 Reed R P, Graham R A, Moore L M, et al. The Sandia standard for PVDF shock sensors. In: Schmidt S C, Davison L W. eds. Shock Compression of Condensed Matter-1989. Elsevier Science Publishers, Amsterdam, 1990. 825-828
    105 李焰, 王凯民, 谭红梅. PVDF 应力计在起爆试验研究中的 应用. 火工品, 2003, 3: 6-10
    106 蔡军锋, 易建政, 檀朝彬. PVDF 压电传感器在爆炸冲击波 测量中的应用. 研究与开发, 2005, 3: 13-15
    107 赵继波, 谭多望, 张远平, 等. PVDF 计在水中爆炸近场压力 测试中的应用. 火炸药学报, 2009, 32(3): 1-4
    108 杜晓松, 杨邦朝, 周鸿仁. PVDF 冲击压力传感器的制备和 应用. 功能材料, 2002, 33(1): 15-18
    109 李焰, 张向荣, 谭红梅. 国产PVDF 压电薄膜的冲击加载及 卸载响应研究. 高压物理学报, 20004, 18(3), 261-266
    110 Anisichkin V F, Gliev S D, Ershov A P, et al. Reaction zone in detonations of dense explosives. In: Proceedings of 12th Symposium on Detonation. 2002. 237-246
    111 Sergey D G, Anatoliy M T. Study of physical-chemical transformations in detonation wave by the electric conductivity method. In: Proceedings of 12th Symposium on Detonation. 2002. 6-17
    112 Jameson R L, Lukasik S J, Pernick B J. Electrical resistivity measurements in detonating composition B and Pentolite. Journal of Applied Physics, 1964, 35(3): 714-720
    113 Hayes B. On the electrical conductivity in detonation products. In: Proceedings of 4th Symposium on Detonation. Office of Naval Research, ACR-126: Washington,1967. 595-601
    114 Hayes B. Electrical measurement in reaction zones of high explosives. In: Tenth Symposium (International) on Combustion, the Combustion Institute, 1965. 869-874
    115 Tasker D G, Lee R J. The measurement of electrical conductivity in detonating condensed explosives. In: Proceedings of 9th Symposium on Detonation. 1989. 396-406
    116 Tasker D G, Lee R J, Gustavson P K. Measurement of electrical conductivity in detonating condensed explosives. NSWCDD/TR-92/218, NITS No: AD-A264 482/1/HDM
    117 Gilev S D. The development of a method of measuring a condensed matter electro-conductivity for investigation of dielectric-metal transitions in a shock wave. Journal of Physics. IV(FRANCE), 1997, 7: C3-211-216
    118 周霖, 廖英强, 徐更光. 爆轰产物导电性的实验测量. 含能材 料. 2005, 13(3): 148-150
    119 蒋治海, 龙新平, 何碧, 等. TNT 和RHT-906 炸药起爆过程 的电导率研究. 含能材料, 2007, 15(2): 169-171
    120 唐恩凌, 廖英强. 凝聚炸药爆轰产物的电导率测量. 弹箭与 制导学报, 2008, 28(6): 126-128
    121 金兆鑫, 焦清介, 陈曦. 含TNT 注装混合炸药爆轰产物电导 率实验研究. 含能材料, 2008, 16(4): 420-423
    122 焦清介, 金兆鑫, 徐新春. 铸装TNT/RDX 爆轰过程导电性 及反应区厚度实验. 含能材料, 2009, 17(2): 178-182
    123 胡栋, 孙珠妹. 利用单色谱仪研究炸药粉快速反应产物发射 谱. 光学学报, 1996, 16(4): 426-429
    124 许海波, 孔令海, 彭现科. 高能质子照相的研究进展. 物理,2008, 37(11): 783-787
    125 王晓丽, 焦清介. 微/纳米含能薄膜材料的制备与应用研究. 含能材料, 2006, 14(2): 139-141
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Article Metrics

    Article views (1899) PDF downloads(2165) Cited by()
    Proportional views
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return