Aerodynamic Simulation of Counter-Tank Weapon (SLT) Munition Design for Poltekad's Pneumatic Pressurized Training Based on Computer Fluid Dynamics (CFD)
DOI:
https://doi.org/10.54317/jtrmb.v1i1.940Kata Kunci:
CFD; aerodynamics; SLT munition; drag force; lift forceAbstrak
Pressurized and pneumatically constructed, SLT training munition is three-dimensional. In this research, computational fluid dynamics (CFD) is utilized to model aerodynamic aspects. Pressure distribution, airflow velocity, drag, and lift forces at various speeds and angles of attack are all examined through simulation. A CFD solver is used to solve subsonic-transonic flow, while 3D modeling software represents geometry. The findings show that flow patterns significantly affect performance, with drag and lift forces crucial for range and stability. offers information on how to develop SLT munitions for military training.








