Diffusion Bonded CVC SiC for Large UVOIR Telescope Mirrors and Structures

Period of Performance: 06/17/2015 - 12/17/2015


Phase 1 SBIR

Recipient Firm

Trex Enterprises Corp.
10455 Pacific Center Court Array
San Diego, CA 92121
Firm POC
Principal Investigator


Trex proposes to demonstrate a novel ceramic joining technology (solid state bonding) for CVC SiC® that allows "seamless" joining of smaller, easily manufactured, and simply shaped components to produce large mirrors and telescope structures, a type of Additive Manufacturing. Trex CVC SiC® is a directly super-polishable mirror substrate material that does not require a silicon cladding, and it has tremendous thermal diffusivity for passive dimensional stability. Such an Additive Manufacturing process minimizes schedule intensive machining processes, labor hours, polishing time, and metrology, which in turn dramatically decreases the cost of the mirror. Our Phase I objective is to optimize the solid state bonding process (make it 100% pore free) and to fabricate a subscale monolithic mirror substrate from hexagonal panels which have been solid state bonded together. Phase I will demonstrate traceability to multi-meter class mirror substrates. Trex CVC SiC® represents an extraordinary technology investment opportunity for NASA with respect to near-term balloon-borne stratospheric telescopes for Astrophysics and Planetary science, and farther term EUOVIR telescopes such as ATLAST observatory.