EDWARD POPE DR

The overall objective of this proposed program extends and increases the performance of MATECHs light-weight, low cost, breakthrough Carbon Fiber reinforced Zirconium Oxy-Carbide ceramic matrix (Cf/Zr ...

In this Phase I SBIR program, MATECH proposes to demonstrate production of continuous carbon fibers from a domestically sustainable rayon fiber precursor as a drop-in replacement for legacy viscose ra ...

MATECH"s ultra-high-temperature, dimensionally stable structural insulator material, a C(fiber)/ZrOC(matrix) ceramic composite material system, is a high performance structural insulator technology. ...

New and innovative designs for advanced nuclear power plants, such as General Atomics EM2, require solutions to significant material challenges. Current zirconium alloys and other metals are incapable ...

In this MDA Phase I SBIR program, MATECH proposes to demonstrate the life cycle sustainability of ultra-high temperature (UHT), very low erosion, carbon fiber zirconium oxy-carbide ceramic matrix comp ...

In this Navy Phase I SBIR Program, MATECH proposes to leverage its lengthy experience in ceramic matrix composite (CMC) fabrication with recent advances in Field Assisted Sintering Technology (FAST) t ...

In process for public release

ABSTRACT: In this AF Phase II SBIR program, MATECH proposes to further demonstrate the ability to perform"on wing"repair of ceramic matrix composite (CMC) components. On wing repairs cannot exceed 30 ...

In this NASA Phase I SBIR program, MATECH proposes to leverage successfully developed laboratory and pilot scale manufacturing technologies to produce low cost Silicon Oxycarbide (SiOC) fibrous-walled ...

Current zirconium alloys and other metals are incapable of being considered as core materials in Gen IV reactors due to increased temperatures and high neutron fluence. Stoichiometric SiC/SiC composit ...