Beretta USA 92FS Brigadier 9mm Luger 10+1 4.90" Steel Barrel, Black Stainless Steel Serrated Slide, Black Aluminum Frame, Black Stippled Rubber Grip
Like the standard 92FS, the 92FS Brigadier is a double/single-action semiauto pistol that employs an open-slide, short-recoil delayed locking-block system, which yields a faster cycle time and delivers exceptional accuracy and reliability. In particular, the open-slide design practically eliminates stove-piping and helps flawless cycling and feeding even after thousands and thousands of rounds. Includes two magazines.
Brand Beretta USA
Category Pistols
Series Brigadier
Model 92FS
Caliber 9mm Luger
Barrel Length Range 4" to 4.99"
Capacity 10+1
Action DA / SA
Frame Finish Black
Frame Material Aluminum
Slide Finish Black
Slide Material Stainless Steel
Slide Description Serrated
Barrel Material Stainless Steel
Grips Black Stippled Rubber
Includes 2 Magazines
Barrel Description Steel
Barrel Length 4.90"
Max Capacity 10
Frame Description Aluminum Frame
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
