The dynamical motion of a FSAPDS projectile is affected due to the propellant gas force, aerodynamic, gravity along with mechanical force, and shockwave forces. In the sabot opening process, the mechanical action takes place and the sabot gets separated due to the shockwave force. In external mechanical action of sabot separation, the maximum stretch of the spring defines the end of third phase of motion. In this paper the motion of the projectile and its stability during this phase has been presented. The time delay in the sabot opening affects the stability of the projectile is discussed with the help of modified stability parameter
Due to space limitations, cost restrictions, and performance challenges, the physical controlmechani...
The fuel-air explosive (FAE) warheads are charged with the liquid-solid mixture fuel. The fuel is di...
Precision-guided projectiles (PGPs) are subjected to severe shock loads, often leading to the failur...
The dynamical motion of a FSAPDS projectile is affected due to the propellant gas force, aerodynamic...
For FSAPDS projectile, the trajectory and stability are dependent on different forces indifferent ph...
For a spinning projectile, the initial stability condition is 2 = 1+ (4 K3 / K22) > 0. In the pre...
When designing an armour piercing kinetic energy projectile with a discarding sabot, it is important...
Sabot asymmetric discard after the projectile being launched from the muzzle at various angles of at...
The aerodynamics of a generic sabot piece is treated using the Newtonian approximation. The sabot pi...
In order to analyze the effect on the dynamic characteristics of the submunitions when subject to di...
Electronic components within a projectile are subjected to severe loads over extremely short duratio...
A numerical study on wave dynamic processes occurring in muzzle blast flows, which are created by a ...
In this study, the effect of the number and length of grooves on sabot of armor-piercing bullets fir...
The transition from inner to outer ballistics is a crucial part of the launch of a projectile from a...
Due to space limitations, cost restrictions, and performance challenges, the physical controlmechani...
The fuel-air explosive (FAE) warheads are charged with the liquid-solid mixture fuel. The fuel is di...
Precision-guided projectiles (PGPs) are subjected to severe shock loads, often leading to the failur...
The dynamical motion of a FSAPDS projectile is affected due to the propellant gas force, aerodynamic...
For FSAPDS projectile, the trajectory and stability are dependent on different forces indifferent ph...
For a spinning projectile, the initial stability condition is 2 = 1+ (4 K3 / K22) > 0. In the pre...
When designing an armour piercing kinetic energy projectile with a discarding sabot, it is important...
Sabot asymmetric discard after the projectile being launched from the muzzle at various angles of at...
The aerodynamics of a generic sabot piece is treated using the Newtonian approximation. The sabot pi...
In order to analyze the effect on the dynamic characteristics of the submunitions when subject to di...
Electronic components within a projectile are subjected to severe loads over extremely short duratio...
A numerical study on wave dynamic processes occurring in muzzle blast flows, which are created by a ...
In this study, the effect of the number and length of grooves on sabot of armor-piercing bullets fir...
The transition from inner to outer ballistics is a crucial part of the launch of a projectile from a...
Due to space limitations, cost restrictions, and performance challenges, the physical controlmechani...
The fuel-air explosive (FAE) warheads are charged with the liquid-solid mixture fuel. The fuel is di...
Precision-guided projectiles (PGPs) are subjected to severe shock loads, often leading to the failur...