FROM BENCH TO SHOOTING RANGE: CORRELATING BASE BLEED CHEMISTRY WITH THE BALLISTIC PERFORMANCE OF EXTENDED RANGE MUNITION

MaurÃ­cio Ferrapontoff Lemos; Ana Paula da Silva; Priscila SimÃµes Teixeira Amaral; Edson da Silva Souza; LaurÃ­lio JosÃ© da Silva JÃºnior; Rafael Coutinho Pinto; William Klinsmann de Oliveira Ferreira; Daniel JosÃ© Nahid Mansur Chalhub; Gil Roberto V. Pinheiro; Leib de Andrade Neubarth; Rachel ManhÃ£es de Lucena; Norberto Mangiavacchi

doi:10.12783/ballistics22/36134

FROM BENCH TO SHOOTING RANGE: CORRELATING BASE BLEED CHEMISTRY WITH THE BALLISTIC PERFORMANCE OF EXTENDED RANGE MUNITION

MaurÃcio Ferrapontoff Lemos, Ana Paula da Silva, Priscila SimÃµes Teixeira Amaral, Edson da Silva Souza, LaurÃlio JosÃ© da Silva JÃºnior, Rafael Coutinho Pinto, William Klinsmann de Oliveira Ferreira, Daniel JosÃ© Nahid Mansur Chalhub, Gil Roberto V. Pinheiro, Leib de Andrade Neubarth, Rachel ManhÃ£es de Lucena, Norberto Mangiavacchi

Abstract

Extended range munitions (ERM) are systems whose performance is subject to aerodynamic, internal ballistics and trajectory effects. There are models in the literature for each of these aspects; thus, a holistic approach that unifies them wouldâ€”theoreticallyâ€”be able to predict the performance of an ERM from bench tests. In this work, we propose such approach. From the integration of chemical composition data, bench tests, combustion simulations, aerodynamic simulations and trajectory dynamics simulations, the behavior of a Base Bleed (BB) unit could be satisfactorily estimated. The results obtained suggest that the composition of combustion products plays a key role in the performance of BB systems.

DOI
10.12783/ballistics22/36134

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32ND INTERNATIONAL SYMPOSIUM ON BALLISTICS

FROM BENCH TO SHOOTING RANGE: CORRELATING BASE BLEED CHEMISTRY WITH THE BALLISTIC PERFORMANCE OF EXTENDED RANGE MUNITION

Abstract

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