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1 April 2017

The U.S. Army Wants A Super 'Bullet' To Kill Enemy Tanks

Kris Osborn

The weapon fires High-Explosive air burst rounds, close combat rounds, and then the general support rounds, like the smoke and battlefield elimination, developers said.

Airburst rounds use programmable fuse to explode in the air at a precise location, thereby maximizing the weapon's effect against enemy targets hiding, for example, behind a rock, tree or building. 

Air burst rounds can detonate in the air or in general proximity to a target. For instance, an airburst round could explode just above an enemy fighter seeking cover behind a rock or wall.

"I want to penetrate the target. I want to kill a light armored vehicle. I want to kill a structure. I want to kill somebody behind the structure. With the gun, soldiers can decide how to affect the targets. Really, that's what the Carl-Gustaf brings to the battlefield is the ability to decide how they want to affect the battlefield -- not call in air support and mark targets,” Wes Walters, Executive Vice President of Business Development, Land Domain, Saab North America, told Scout Warrior in an interview. 

Army and industry weapons developers are working with the Defense Advanced Research Project Agency to explore the feasibility of precision-guided rounds for a man-portable, anti-personnel and ant-armor weapon known as the Carl Gustaf, officials said.

Current innovations involve a cutting-edge technology program, called Massive Overmatch Assault Round or MOAR, aimed exploring the prospect of precision guided rounds for the weapon.

While the shoulder-fired infantry and Special Operations weapon currently uses multiple rounds and advanced targeting technologies, using a precision “guided” round would enable the weapon to better destroy enemy targets on the move by having the technology to re-direct with advanced seeker technology.

“We are exploring different kinds of seekers to pursue precision engagement capabilities,” Malcolm Arvidsson, Product Director, Carl-Gustaf M4, Saab, told Scout Warrior in an interview. 


The weapon, called the Multi-Role Anti-Armor, Anti-Personnel Weapons System, known as the Carl-Gustaf, was initially used by Special Operations Forces. Several years ago, it was ordered by the Army in response to an Operational Needs Statement from Afghanistan.

These innovations are still in early conceptual, research and testing phases. However, they are being pursued alongside a current Army effort to acquire an upgraded 84mm recoilless shoulder-fired Carl Gustaf weapon able to travel with dismounted infantry and destroy tanks, armored vehicles, groups of enemy fighters and even targets behind walls, Army and industry officials said.

Acquisition efforts for the weapon began when the Army was seeking to procure a direct fire, man-portable, anti-personnel and light structure weapon able, among other things, to respond to insurgent rocket-propelled grenade, or RPG, fire, service officials said.

Designed to be lighter weight and more infantry-portable that a Javelin anti-tank missile, the Carl Gustaf is built to help maneuvering ground units attack a wide range of targets out to as far as 1,300 meters; its target set includes buildings, armored vehicles and enemy fighters in defilade hiding behind rocks or trees.

Following the weapon’s performance in Afghanistan with soldiers, Army weapons developers moved the weapon into a formal “program of record” and began to pursue an upgrade to the Carl Gustaf to include lighter weight materials such as titanium, Arvidsson said.

The upgraded M4 Carl-Gustaf, introduced in 2014, shortens the length and lowers the weight of the weapon to 15 pounds from the 22-pound previous M3 variant, he said. The first M3 variant of the weapon was introduced in the early 1990s.

“We use a steel that is half the weight and half the density. For the barrel, we have improved the lining pattern and added a more efficient carbon fiber wrapping,” Arvidsson added.

The lighter weight weapon is, in many ways, ideal for counterinsurgency forces on the move on foot or in light vehicles in search of small groups of enemy fighters – one possible reason it was urgently requested for the mountainous Afghanistan where dismounted soldiers often traverse high-altitude, rigorous terrain.

At the same time, the anti-armor function of the weapon would enable infantry brigade combat teams to attack enemy vehicles in a mechanized, force-on-force kind of engagement.

The Carl-Gustaf is engineered with multipurpose rounds that can be used against armored vehicles and soft targets behind the walls. There are also pure anti-structure rounds to go through thick walls to defeat the targets behind a wall, Army and Saab developers explained.

The weapon fires High-Explosive air burst rounds, close combat rounds, and then the general support rounds, like the smoke and battlefield elimination, developers said.

Airburst rounds use programmable fuse to explode in the air at a precise location, thereby maximizing the weapon's effect against enemy targets hiding, for example, behind a rock, tree or building. 

Air burst rounds can detonate in the air or in general proximity to a target. For instance, an airburst round could explode just above an enemy fighter seeking cover behind a rock or wall.

"I want to penetrate the target. I want to kill a light armored vehicle. I want to kill a structure. I want to kill somebody behind the structure. With the gun, soldiers can decide how to affect the targets. Really, that's what the Carl-Gustaf brings to the battlefield is the ability to decide how they want to affect the battlefield -- not call in air support and mark targets,” Wes Walters, Executive Vice President of Business Development, Land Domain, Saab North America, told Scout Warrior in an interview. 

The Army is evaluating a wide range of new technologies for its newer M4 variant to include electro-optical sights with a thermal imager, magnification sights of durable-optical sights, Saab officials explained.

Sensors and sights on the weapon can use advanced computer algorithms to account for a variety of environmental conditions known to impact the trajectory or flight of a round. These factors include the propellant temperature, atmospheric conditions, biometric pressure and terrain inclination,

“There are a number of parameters that the sight can actually calculate to give you a much harder first round probability of hit,” Walters said.

Some weapons use a laser rangefinder which calculates the distance of an enemy object by g computer algorithms combing the speed of light with the length of travel – to determine distance.

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