Introducing the P320, a pistol that defies comparison with revolutionary features that stand alone. A smooth, consistent trigger pull. Safe, tool-free disassembly. A proper fit for any hand size - no backstrap required. Consider the mold broken.
Features :
- Innovative to it's Core
- This is a gun, a gun that could only come from SIG. The P320 elevates the standard for a striker-fired pistol with an exceptional trigger and a design as dependable as it is one-of-a-kind.
- Safety Without Compromise
- Safety isn't negotiable. The P320 maximizes peace of mind with a robust safety system. Never again will you need to pull the trigger to disassemble your pistol.
Specifications :
- Caliber: 9mm
- Barrel Length: 4.70"
- Capacity: 10 Rounds
- Number of Magazines: 2
- Sights: Contrast Sights
- Slide Material: Stainless Steel
- Slide Finish: Nitron
- Frame Material: Stainless Steel
- Trigger: Double-Action Striker
- Trigger Pull: 5.5-6.5 lbs.
- Grips: Polymer Grip Module
- Length: 8"
- Weight: 29.40 oz
Caliber Dictionary
The Below Information Has Been Provided From Our Gun Caliber Dictionary And Is Meant For Informational Purposes Only. It Is Not Intended to Describe The Unique Specifications For This Ammunition.
The 9mm Luger (9X19mm, Parabellum, P08) was developed in Germany in 1902. Widely used in both world wars, it is the most popular pistol cartridge in the world, now widely used by innumerable law enforcement agencies and militaries (including our own) in both pistols and submachineguns. The controversy over its "stopping power" will never go away, but its attribute is that it is much easier to shoot accurately than larger cartridges with greater power...but more recoil. Advancements in bullet design for law enforcement and personal defense have narrowed the gap considerably. The 9mm Luger is a world standard, chambered by virtually all makers of semiautomatic pistols, with a myriad of factory loads. The most standard is probably a 115-grain load at 1160 fps, with common bullet weights ranging from 95 to 147 grains, and +P loads at higher velocity. — Craig Boddington
