Engineering Journal: Science and InnovationELECTRONIC SCIENCE AND ENGINEERING PUBLICATION
Certificate of Registration Media number Эл #ФС77-53688 of 17 April 2013. ISSN 2308-6033. DOI 10.18698/2308-6033
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Article

Assessment of high-density explosives performance using the JWL equation of state

Published: 19.08.2015

Authors: Andreev S.G., Shestakov M.A.

Published in issue: #7(43)/2015

DOI: 10.18698/2308-6033-2015-7-1401

Category: Mechanics | Chapter: Mechanics of Liquid, Gas, and Plasma

In the article we have refined estimations of the explosive materials performances considered as the ability of their decomposition products to produce work while isoentropically expanding from the initial state of the instantaneous explosion products; the effect of the "cold" components of pressure and internal energy of the actuating medium producing the work was taken into account. Results of the calculations using the Jones-Wilkins-Lee (JWL) equation of state for low-density and high-density PETN charges are provided for several ways of delivering extra energy into explosion products, excessive as compared to the heat generation at the detonation front characterized by the Chapman-Jouget parameters.


References
[1] Makhov M.N. Energosoderganie smesei CL-20 s alyuminiem [The energy content of mixtures CL-20 and aluminum]. In.: S.M. Frolov, ed. Gorenie i vzryv [Combustion and Explosion]. Moscow, Torus press Publ., 2013, issue. 6, pp. 293-296.
[2] Okhitin V.N., Menshakov S.S. Inzhenernyi zhurnal: nauka i innovatsii - Engineering Journal: Science and Innovation, 2013, issue 1. Available at: http://engjournal.ru/catalog/machin/blasting/561.html (accessed 30.05.2015).
[3] Kulikov V.N., Osavchuk A.N., Imkhovik R.A., Odintsov V.A. Inzhenernyi zhurnal: nauka i innovatsii - Engineering Journal: Science and Innovation, 2013, issue 1. Available at: http://engjournal.ru/catalog/machin/blasting/564.html (accessed 30.05.2015).
[4] Yashin V.B., Alekseev V.V., Khodyrev S.P., Malkin A.V., Imkhovik A.N., Selivanov V.V., Simonov A.K. Inzhenernyi zhurnal: nauka i innovatsii - Engineering Journal: Science and Innovation, 2013, issue 1. Available at: http://engjournal.ru/catalog/machin/blasting/566.html (accessed 30.05.2015).
[5] Andreev S.G., Boyko M.M., Klimenko V.Yu. Inzhenernyi zhurnal: nauka i innovatsii - Engineering Journal: Science and Innovation, 2013, issue 1. Available at: http://engjournal.ru/catalog/machin/blasting/568.html (accessed 30.05.2015).
[6] Levin D.P., Selivanov V.V. Inzhenernyi zhurnal: nauka i innovatsii - Engineering Journal: Science and Innovation, 2013, issue 1. Available at: http://engjournal.ru/catalog/machin/blasting/576.html (accessed 30.05.2015).
[7] Cheltsov I.M. Vzryvchatye veschestva [Explosives.]. In: F.A. Brokgauz i I.A. Efron. Entsiklopedicheskiy slovar [Encyclopedic Dictionary], vol. 11, Moscow, Terra Publ., 1991. (Reprint of F.A. Brokgauz i I.A. Efron, vol. 11 published in 1890).
[8] Belyaev A.F. Gorenie, detonatsiya i rabota vzryva kondensirovannykh system [Combustion, detonation and operation of explosion of condensed systems]. Moscow, Nauka Publ., 1968, 255 p.
[9] Solovyev V.S., Andreev S.G., Levantovskiy A.V., Shamshev K.N. Opticheskie i rentgenograficheskie issledovaniya detonatsionnykh svoystv nizkoplotnykh VV na osnove geksogena [Optical and X-ray studies of detonation properties of low-density explosives based on hexogen]. In: Gorenie i vzryv [Combustion and Explosion]. Materialy Tretyego Vsesoyuznogo simpoziuma po goreniyu i vzryvu [The materials of the 3rd All-Union symposium on combustion and explosion], Leningrad, 1972. Moscow, Nauka Publ., 1972, pp. 451-454.
[10] Andreev S.G., Boyko M.M., Selivanov V.V. Eksperimental’nye metody fiziki vzryva i udara []Experimental methods of the physics of explosion and collision]. Selivanov V.V., ed. Moscow, Fizmatlit Publ., 2013, 752 p.
[11] Savrov S.D., Trofimov V.F., Shvedov K.K.M. Detonatsionnye volny v kondensirovannykh sredakh [Detonation waves in condensed media]. Moscow, Nauka Publ., 1970, 164 p.
[12] Urtiew P.A., Hayes B. Parametric Study of the Dynamic JWL-EOS for Detonation Products. Fizika goreniya i vzryva - Combustion, Explosion, and shock Waves, 1991, no. 4, pp. 126-136.
[13] Kukib B.N., Pankova E.N., Afanasenkov A.N. i dr. Raschetnyy ekspress-metod predvaritel’noy otsenki energeticheskikh kharakteristik, parametrov detonatsii, otnositelnoy rabotosposobnosti i ekonomicheskoy effektivnosti promyshlennykh VV [Estimated rapid method of preliminary assessment of energy performance, detonation parameters, relative efficiency and cost-effectiveness of industrial explosives]. Metody ispytaniy nizkochuvstvitel’nykh VV [Methods of test for low sensitivity explosives]. Chernogolovka, OIKhF AN SSSR, 1991, pp. 90-108.
[14] Andreev S.G., Babkin A.V., Baum F.A., et al. Fizika vzryva [Physics of explosion], vol. 1. Orlenko L.P., ed. Moscow, Fizmatlit Publ., 2002, 415 p.
[15] Andreev S.G. Priblizhennoe sootnoshenie mezhdu davleniem i massovoy skorost’yu vblizi udarnogo fronta pri ustanovivsheysya detonatsii [An approximate relationship between pressure and mass velocity near the shock front at a steady detonation]. Udarnye volny v kondensirovannykh sredakh. Mezhdunarodnaya konferentsiya. Kiev, Ukraina, 16-21 sentyabrya 2012 g. [Shock waves in condensed media. International Conference. Kiev, Ukraine, 1621 September 2012]. Kiev, Inter press Ltd, 2012, pp. 47-54.
[16] Dobratz B.M. LLNL explosives handbook - properties of chemical - explosives and explosive stimulants, UCRL - 52997. Livermore, (CA), 1981, 414 p.