1. Darko Janković, Univerzitet odbrane, Vojna akademija, Veljka Lukića Kurjaka 33, Beograd, Republika Srbija, Serbia
2. Marina Simović Pavlović, 2Univerzitet u Beogradu, Mašinski fakultet, Kraljice Marije 16, Beograd, Republika Srbija, Serbia
3. Martin Ohsenhofen, Univerzitet u Beču, Fakultet za razvojne studije, Sensengasse 3/2/2, Beč, Republika Austrija, Austria
4. Katarina Nestorović, Vojnotehnički institut, Ratka Resanovića 2, Beograd, Republika Srbija, Serbia
5. Svetlana Stojnović, Univerzitet odbrane, Vojna akademija, Veljka Lukića Kurjaka 33, Beograd, Republika Srbija, Serbia
6. Damir Jerković, Univerzitet odbrane, Vojna akademija, Veljka Lukića Kurjaka 33, Beograd, Republika Srbija, Serbia
7. Darko Vasiljević, Univerzitet u Beogradu, Institut za fiziku, Centar za fotoniku, Pregrevica 118, Republika Srbija, Serbia
In order to improve ballistic protection, this paper presents the advantages of granular materials compared to traditional materials used in this field. Currently, ballistic protection uses various materials, individually or in combination, such as armor steels, ceramic layers, composite materials and granular structures. This paper shows the interaction of projectiles with each type of material, as well as the effects of combining different layers of materials. Granular materials consist of macroscopic particles, each with its own degree of freedom. Collisions between these particles transfer energy from the solid to the individual particles, leading to energy dissipation that can stop particle movement within the granular material. The primary goal of this research is to analyze the results of projectile impact on various material obstacles using a mathematical model for image processing.
Ključne reči :
Tematska oblast:
SIMPOZIJUM A - Nauka materije, kondenzovane materije i fizika čvrstog stanja
Datum:
10.06.2024.
Contemporary Materials 2024 - Savremeni Materijali
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