On 24 March, Textron Systems, a business of Textron Inc. , announced that it delivered the initial Next Generation Squad Weapon-Technology (NGSW-T) prototype demonstrator to the US Army Combat Capabilities Development Command (CCDC) Armaments Center and Joint Services Small Arms Program (JSSAP). The automatic rifle prototype, based on the company’s proven Cased-Telescoped (CT) Weapons and Ammunition technology, is the first of five weapon demonstrators that Textron Systems will deliver for the programme.
“Moving from contract award to delivery of a revolutionary, next-generation weapon in just 15 months not only demonstrates the maturity of our CT technology, but also the project execution excellence our team possesses to rapidly fill critical warfighter needs on schedule,” Textron Systems Senior Vice President of Applied Technologies & Advanced Programs, Wayne Prender, said. “Our CT weapons and ammunition offer the growth path to a true next-generation small arms weapon for US warfighters, including increased lethality at longer ranges, while also delivering significant weight reductions to the warfighter.”
Technologies demonstrated by Textron Systems under the NGSW-T effort will inform the army’s formal NGSW programme and include weapon and ammunition weight reduction, weapon sound suppression and fire control integration technology.
In 2018, Textron Systems also received a separate contract from the US Army to develop a prototype weapon for the Next Generation Squad Automatic Rifle- Prototype Opportunity Notice (NGSAR-PON) programme and remains on track to demonstrate the weapon in June 2019. Story here.
In development since 2004, Textron Systems’ CT weapons and ammunition offer an innovative weapon design that increases lethality and reduces total system weight by up to 40 percent. Textron Systems has developed rifles, including automatic rifles, in a variety of configurations and calibers, including 5.56mm, 6.5mm, and 7.62mm, and is supporting the army’s current efforts to revolutionize its small arms capability.
For more on NGSW, please see overview article here.