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Numerical Analysis of Shock Initiation on Highly Energetic Material LX-04

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EN
Abstrakty
EN
The paper presents investigation of shock initiation effects on highly energetic material LX-04, an HMX based one, by a blunt brass projectile using numerical modelling methods implemented in LS-DYNA software. Multi – Material Arbitrary Lagrangian Eulerian (MM-ALE) formulation has been used to provide the possibility of fulfilment of the elements with multiple materials accordingly to multiple phases of the composition detonated. The work is focused on LS-DYNA’s equation of the state keyword *EOS_IGNITON_AND_GROWTH_IN_HE. Proper comparison with experimental data is presented. The introduction into the subject of highly nonlinear transient dynamic finite element analysis, possibilities, and superiority of this kind of modelling are being discussed. Reasons of sustaining the need of data by numerical solutions rather than experimental handling in military applications are given. Some of typical technical issues, occurring during such a fast-performing phenomenon, and the need of experimental validation of the models are typed together with detonation-state determination’s observation capabilities.
Twórcy
  • Military Institute of Armament Technology, 7 Prymasa St. Wyszyńskiego Str., 05-220 Zielonka, Poland
  • Military Institute of Armament Technology, 7 Prymasa St. Wyszyńskiego Str., 05-220 Zielonka, Poland
Bibliografia
  • [1] Schwer E. Leonard. 2012. Impact and Detonation of COMP-B, An Example using the LS-DYNA EOS: Ignition and Growth of Reaction in High Explosives. In Proceedings of the 12th International LS-DYNA Users Conference.
  • [2] Almond J. Robert, Stephen G. Murray. 2005. “Projectile Attack of Surface Scattered Munitions Comparing Closed Form Theory with Live Trials”. Propellants, Explosives, Pyrotechnics 30 (3) : 224-230.
  • [3] Lee E.L., Craig M. Tarver. 1980. “Phenomenological Model of Shock Initiation in Heterogeneous Explosives”. Phys. Fluids 23 (12) : 2362-2372.
  • [4] LS-DYNA Keyword User’s Manual. 2017.
  • [5] Vandersall S. Kevin, Craig M. Tarver, Frank Garcia, Steven Chidester, Paul A. Urtiew, Jerry W. Forbes. 2006. Low Amplitude Single and Multiple Shock Initiation Experiments and Modeling of LX-04. In Proceedings of the Thirteenth Symposium (International) on Detonation, 904-913. Norfolk, VA, USA. July 23-28, 2006.
  • [6] Manes Andrea, L.M. Bresciani, Marco Giglio. 2014. “Ballistic Performance of Multi-layered Fabric Composite Plates Impacted by Different 7.62 mm Calibre Projectiles”. Procedia Engineering 88 : 208-215.
  • [7] Schwer E. Leonard. 2007. Optional Strain-Rate Forms for the Johnson Cook Constitutive Model and the Role of the Parameter Epsilon_01. In 6th European LS-DYNA Users’ Conference.
  • [8] Almond J. Robert, Stephen G. Murray. 2006. “Projectile Attack of Surface Scattered Munitions: Prompt Shock Finite Element Models and Live Trials”. Propellants, Explosives, Pyrotechnics 31 (2) : 83-88.
  • [9] B. M. Dobratz. 1981. LLNL explosives handbook: properties of chemical explosives and explosives and explosive simulants. Technical Report, USA, Lawrence Livermore National Lab.
  • [10] Tarver M. Craig. 2018. Ignition and growth reactive flow modelling of detonating LX-04 using recent and older experimental data. AIP Conference Proceedings 1979 : 100042-1-6.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cceded7e-e833-424e-9a67-3aca7a0f406c
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