Frattura ed Integrità Strutturale (Jul 2022)

A simplified constitutive model for a SEBS gel muscle simulant - Development and experimental validation for finite elements simulations of handgun and rifle ballistic impacts

  • Riccardo Andreotti,
  • Valentina Leggeri,
  • Andrea Casaroli,
  • Mauro Quercia,
  • Cristian Bettin,
  • Mauro Zanella,
  • Marco V. Boniardi

DOI
https://doi.org/10.3221/IGF-ESIS.61.12
Journal volume & issue
Vol. 16, no. 61
pp. 176 – 197

Abstract

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An original simplified constitutive model is proposed to simulate the effects of ballistic impacts on blocks of synthetic muscle simulant based on mineral oil and styrene ethylene-butylene styrene polymers (SEBS) as a convenient substitute for Fackler ballistic gelatin. The model is based on a quasi-static elastic-plastic model associated with hydrodynamic properties regulated by a polynomial equation of state. The paper illustrates the development and experimental validation of the model to simulate 9x21mm full metal jacket (FMJ) round-nose, 7.62x39 mm FMJ and 5.56x45 mm NATO bullets penetrating 145x145x400 mm gel blocks. All material parameters are provided to be implemented in built-in LS-Dyna keywords. The validation confirms the effectiveness of the model and suggests possible further developments. The work also confirms the tested synthetic gel as a valid and convenient substitute for Fackler 10% ballistic gelatin at 4 �C

Keywords