SBIR-STTR Award

Hybrid Textile-Based Multi-Layered Flexible System for Penetration Resistance
Award last edited on: 7/31/2013

Sponsored Program
STTR
Awarding Agency
DOD : Army
Total Award Amount
$849,676
Award Phase
2
Solicitation Topic Code
A05-T004
Principal Investigator
Stan Farrell

Company Information

Tex Tech Industries Inc (AKA: Tex-Tech Industries Inc)

1 City Center 11th Floor
Portland, ME 04101
   (207) 756-8606
   textech@textech.com
   www.textechindustries.com

Research Institution

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Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2005
Phase I Amount
$99,700
Tex Tech Industries has an effective through thickness reinforced hybrid ballistic fabric that has recently been introduced into the ballistic armor market for police force body armor. Fabric made with this technology was tested for V-50 results using both 9mm projectiles (124g Full Metal jacket) and .22 caliber fragment simulation projectiles( FSP, 17 grain). Result from this testing demonstrated that a 0.62 lb/ft? fabric was able to achieve a V-50 of over 1,600 feet per second ballistically and over 1,800 feet per second with the fragment simulation projectile (FSP). The through thickness reinforced ballistic fabric provides improved ballistic performance through higher impact velocities and reduced back face signatures compared to similar 2D fabrics. The University of Maine at Orono and Tex Tech Industries, with Armor Holdings propose to continue to develop the material to higher ballistic performance and lower weight through optimization of through thickness reinforcement, fiber and fabric type, ceramics additions, and felt additions

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2007
Phase II Amount
$749,976
Tex Tech Industries has developed a through thickness reinforced (3-D) hybrid ballistic fabric that has recently been introduced into the ballistic armor market. Phase I testing found that for 9mm and .22 FPS projectiles, the hybrid fabric was 9 to 13% be

Keywords:
3D FABRIC, BALLISTIC PROTECTION, BALLISTIC ARMOR, FLEXIBLE ARMOR, BALLISTIC MODELING, THROUGH THICKN