SBIR-STTR Award

Transparent CVC SiC Windows for THAAD
Award last edited on: 4/13/2023

Sponsored Program
SBIR
Awarding Agency
DOD : MDA
Total Award Amount
$2,480,191
Award Phase
2
Solicitation Topic Code
MDA04-112
Principal Investigator
William Fischer

Company Information

Advanced Silicon Carbide Materials LLC

10455 Pacific Center Court
San Diego, CA 92121
   (858) 646-5300
   N/A
   www.ascmtech.com
Location: Single
Congr. District: 51
County: San Diego

Phase I

Contract Number: N/A
Start Date: 4/23/2020    Completed: 4/22/2022
Phase I year
2020
Phase I Amount
$1
Direct to Phase II

Phase II

Contract Number: HQ0860-20-C-7126
Start Date: 4/23/2020    Completed: 4/22/2022
Phase II year
2020
Phase II Amount
$2,480,190
Ceramics have utility as optically transparent materials in optical fibers, lenses, solid state lasers, optical windows, and heat-seeking devices for missile guidance systems. Polycrystalline ceramics are limited by the incident light that is scattered by microstructural features; higher scattering results in higher opacity. Reduction in the crystalline particle size below the wavelength of the incident radiation can result in translucent or even transparent material. Manufacturing advances have brought polycrystalline ceramics to the fore in radome, sensor protection and multi-spectral window applications. These ceramics must exhibit superior optical properties to control the spectral bandwidth of operation, have the abrasion resistance and strength expected for armor, and high thermal stability for the demanding operational environment. Missile defense applications require state of the art transparent optics with exceptional thermo-mechanical properties. ASCM proposes its CVC SiC® for window and radome applications. ASCM has demonstrated production of meter-class CVC SiC® monoliths and transparent structures. In this program ASCM will develop and refine the CVC SiC® process to maximize transparent optical performance, while maintaining the upper tier thermo-mechanical properties of the native material. Approved for Public Release 19-MDA-10203 (4 Sep 19)