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Detonations represent high-speed chemical reactions characterized by rapid propagation, accompanied by a release of high-pressure energy. This transformative process converts unreacted explosive materials into stable product molecules, reaching a steady state known as the Chapman-Jouguet (CJ) state. This study aims to effectively describe the detonation phenomenon in energetic materials through the application of the CJ theory. Using a computational approach, we developed a MATLAB code to calculate the minimum detonation velocity (DCJ) of the explosive and analyze product expansion under constant entropy conditions.

MATLAB code for highly energetic materials / Caridi, Yuri; Cucuzzella, Andrea; Berrone, Stefano; Rondoni, Lamberto; Barbieri, U.; Bancallari, L.. - 33:(2023), pp. 104-109. (Intervento presentato al convegno III Aerospace PhD-Days: international congress of PhD students in Aerospace Science and Engineering tenutosi a Bertinoro (Italy) nel 16-19 April 2023) [10.21741/9781644902677-16].

MATLAB code for highly energetic materials

Yuri Caridi;Andrea Cucuzzella;Stefano Berrone;Lamberto Rondoni;U. Barbieri;
2023

Abstract

Detonations represent high-speed chemical reactions characterized by rapid propagation, accompanied by a release of high-pressure energy. This transformative process converts unreacted explosive materials into stable product molecules, reaching a steady state known as the Chapman-Jouguet (CJ) state. This study aims to effectively describe the detonation phenomenon in energetic materials through the application of the CJ theory. Using a computational approach, we developed a MATLAB code to calculate the minimum detonation velocity (DCJ) of the explosive and analyze product expansion under constant entropy conditions.
2023
MATERIALS RESEARCH PROCEEDINGS
9781644902677
4.1 Contributo in Atti di convegno
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2985783