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M CUBED TECHNOLOGIES, INC.
UEI: CQKWDU5TRQQ3
# of Employees: 150
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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Define/Demonstrate Beryllium (Be) Substitute Material
Amount: $69,543.00An extremely capable team of M Cubed Technologies and Fraunhofer USA is proposing to replace high cost, toxic Be-based metals with innovative, Mg metal matrix composites (MMCs) in stiffness critical s ...
SBIRPhase I2003Department of Defense Missile Defense Agency -
High Performance, Concealed, Ceramic-Based Armor Panels for Military and Commercial Vehicles
Amount: $119,295.00An extremely capable team of M Cubed Technologies and Simula is providing an innovative approach to the design and fabrication of ceramic-based armor panels for military and commercial vehicles. In s ...
SBIRPhase I2003Department of Defense Army -
A rapid processing method for large, low-expansion, light-weight mirrors
Amount: $69,928.00"M Cubed has conducted preliminary work to fabricate near-zero coefficient of thermal expansion (CTE) fiber reinforced ceramic composites. These composites have high specific stiffness and thermal sta ...
SBIRPhase I2002Department of Defense Missile Defense Agency -
Rapid, low-cost composite manufacturing processes
Amount: $69,819.00"M Cubed has developed three key processes for manufacturing advanced materials components which include PRIMEX, DIMOX and reaction bonding. The processes have been used to make a variety of component ...
SBIRPhase I2002Department of Defense Missile Defense Agency -
Novel Lithography Stages Fabricated from High Performance Composite Materials
Amount: $750,000.00N/A
SBIRPhase II2000Department of Defense Defense Advanced Research Projects Agency -
Novel Lithography Stages Fabricated from High Performance Composite Materials
Amount: $88,980.00Not Available Innovative device designs and novel growth and fabrication techniques will be investigated to provide a significant improvement in the operational characteristics of A1GaN/GaN high elec ...
SBIRPhase I1999Department of Defense Defense Advanced Research Projects Agency