Fundamentals of Ballistics

WarStories

26 Jun 201218:05

Summary

TLDRThis script delves into the intricate science of ballistics, detailing its three main divisions: interior, exterior, and terminal ballistics. Interior ballistics focuses on the launch and pressure dynamics within a weapon, while exterior ballistics examines projectile flight, influenced by gravity and air resistance. Terminal ballistics addresses the impact and desired effects on target engagement. The discussion covers propellant types, grain designs, and projectile stabilization methods, emphasizing the importance of understanding these factors for accurate and effective weapon performance.

Takeaways

🚀 Ballistics is divided into three main categories: interior, exterior, and terminal ballistics, each dealing with different aspects of projectile motion.
🔍 Interior ballistics focuses on the launch of ammunition, including the pressure generated by propellants and the movement of the projectile within the weapon.
🎯 Exterior ballistics is concerned with the flight of projectiles, considering forces like gravity and air resistance, and the need for stabilization through spinning or fins.
💥 Terminal ballistics deals with the effects of projectiles upon impact, including blast, penetration, and fragmentation, and the use of fuses to control these effects.
🌟 The propellant's chemical composition and grain size are crucial in determining the rate and pressure of gas production, affecting the projectile's launch.
🔩 Different grain designs in propellants, such as digressive, neutral, and progressive, produce varying pressure profiles suitable for different types of weapons.
🛠 The design of projectiles, including their shape and materials, is tailored to overcome forces like air resistance and to achieve desired flight characteristics.
📊 Streamlining and spin are used to stabilize projectiles in flight, with fins and spiral grooves in gun bores playing a significant role.
🔧 Terminal ballistics considers the tactical purpose of ammunition, aiming to achieve the most effective impact on various target types through a combination of effects.
⏱️ Fuses are essential in terminal ballistics, with different types (impact, time, proximity) and locations on the projectile to optimize the effect upon target engagement.

Q & A

What are the three divisions of ballistics mentioned in the script?
-The three divisions of ballistics mentioned are interior ballistics, exterior ballistics, and terminal ballistics.
What is the primary focus of interior ballistics?
-Interior ballistics is concerned with the launching of the ammunition, including the pressure behind the projectile and the burning of the propelling charge.
How does exterior ballistics differ from interior ballistics?
-Exterior ballistics focuses on the behavior of projectiles in flight, including the effects of gravity, air resistance, and other environmental factors.
What does terminal ballistics deal with?
-Terminal ballistics deals with the action of the ammunition at the target, including the effects desired for different types of targets and the use of fuses to control the action.
Why is the pressure behind a projectile important in interior ballistics?
-The pressure behind a projectile is important because it propels the projectile out of the gun barrel and is responsible for its initial velocity.
What role does the propelling charge play in the launching of ammunition?
-The propelling charge, or propellant, is crucial as it burns to create the gas pressure that launches the projectile from the weapon.
How does grain size and design affect the burning rate of a propellant?
-Grain size and design significantly affect the burning rate of a propellant, with smaller grains generally burning faster and providing a sharp, sudden thrust, while larger grains provide a more sustained push.
What are the different types of grain designs mentioned in the script?
-The script mentions three types of grain designs: a large grain with seven holes (digressive), a medium-sized grain with one hole (neutral), and a small solid grain (aggressive).
How does the pressure action differ when using progressive grains in long-barreled versus short-barreled weapons?
-In long-barreled weapons, progressive grains provide a moderate and sustained pressure, which is ideal for high velocity. In short-barreled weapons, the same charge can cause excessive muzzle flash and waste energy due to continued burning after the projectile has left the bore.
What are some methods used to stabilize projectiles in flight as discussed in the script?
-Methods to stabilize projectiles in flight include the use of fins, which are effective for mortars and some rockets, and spinning the projectile, which is achieved by cutting spiral grooves in the gun barrel and using a soft rotating band around the projectile.
How does terminal ballistics contribute to the effectiveness of ammunition against different targets?
-Terminal ballistics contributes to the effectiveness of ammunition by designing projectiles and fuses to produce the desired effects, such as blast, penetration, fragmentation, or incendiary action, against specific types of targets.