The new helmets have 35 percent higher tolerance from fragmenting munitions than previous ballistic helmets.
Other helmets from the ARL-led Army ManTech program are already in the field, used by the Green Berets, the Navy SEALS, and Special Operations Forces. These include the Future Assault Shell Technology (FAST) helmet, as well as the MARITIME helmet. The FAST helmet offers a 25 percent weight reduction, while the MARTIME helmet offers a 35 percent weight reduction using new grades of a material supported and demonstrated in part by the Program Manager Soldier Protection Individual Equipment.
The state-of-the-art helmet technology was made possible through new manufacturing processes developed at ARL, in collaboration with U.S. Army Natick Soldier Research, Development and Engineering Center and Program Executive Office (PEO) Soldier. Material researchers were able to develop, execute and transition manufacturing processes that addressed technology gaps precluding the use of new thermoplastic-based composites. ARL has initiated process research as part of its mission program, and was supported by the Army Manufacturing Technology (ManTech) Program.
"The ManTech program has allowed us to serve as a catalyst to stimulate industry into unconventional ways of adopting these new materials for ballistic protection," said Dr. Shawn Walsh, Team Leader, Agile Manufacturing Technology Team, WMRD, ARL. "Ultra high molecular weight polyethylene materials are inherently more expensive, so handling them, reducing the waste associated with the process to form them, and maximizing their benefit in terms of how they are formed into the ultimate part is very critical."
ManTech supports manufacturing technologies that reduce the commercial risk in transitioning military-unique manufacturing processes to production. Prior to ManTech, the technology that the Army used to manufacture helmets was more than 30 years old and was not adaptable for fully exploiting the new materials.
The Army helmet fabrication goal was to develop an entirely new methodology for mass producing complex shapes combining layers of different thermoplastic materials. Along the way it pioneered an innovative molding technology, a preform process that reduces touch-labor by as much as 40 percent and waste by as much as 70 percent.
Provided by U.S. Army Research Laboratory
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