Transonic Flow Past Axisymmetric and Nonaxisymmetric Boatt ail Projectiles

“…Actually, their main concern was prediction of the surface pressure, normal force and pitching moment coefficients using three-dimensional inviscid flow field computations past a nonspinning non-conical boattail. Some computational studies using different techniques were carried out in order to investigate the steady inviscid aerodynamic behavior of projectiles having conical, triangular and square boattail shapes [15,16]. These studies concerned in finding analytical solution predicting some parameters affecting the stability of a projectile provided with one of the unconventional boattails at transonic speeds.…”

Numerical Study on Flow Characteristics of Air Past a Projectile With a Triangular Base

“…Actually, their main concern was prediction of the surface pressure, normal force and pitching moment coefficients using three-dimensional inviscid flow field computations past a nonspinning non-conical boattail. Some computational studies using different techniques were carried out in order to investigate the steady inviscid aerodynamic behavior of projectiles having conical, triangular and square boattail shapes [15,16]. These studies concerned in finding analytical solution predicting some parameters affecting the stability of a projectile provided with one of the unconventional boattails at transonic speeds.…”

Numerical Study on Flow Characteristics of Air Past a Projectile With a Triangular Base

Ballistic Performance of a Projectile With a Developed Boattail