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COMPOSITE TECHNOLOGY DEVELOPMENT, INC.

Company Information
Address
2600 CAMPUS DR SUITE D
LAFAYETTE, CO 80026-3357
United States


HTTP://WWW.CTD-MATERIALS.COM

Information

UEI: X57TKFLL14E5

# of Employees: 14


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No



Award Charts




Award Listing

  1. Multi-Continuum Theory for Linerless Composite Tank Design

    Amount: $99,419.00

    In Phase I, CTD will identify design and operational requirements for linerless composite tanks, and will define structural analysis approaches for these tanks incorporating Multi-Continuum Theory (MC ...

    SBIRPhase I2004Department of Defense Missile Defense Agency
  2. Innovative, Low Cost, Radiation-Resistant Fusion Magnet Insulation

    Amount: $99,997.00

    75747-Newly designed and proposed fusion magnet systems will require electrical insulation capable of withstanding high temperatures and high radiation doses. The lack of cost-effective, radiation-re ...

    SBIRPhase I2004Department of Energy
  3. Non-Microcracking Polymer Composite Cryogenic Pressure Vessel

    Amount: $751,195.00

    The proposed work aims to develop, characterize and demonstrate a novel and highly innovative engineering method for lightweight, microcrack-resistant, all-composite tanks used in the mixing, storage ...

    SBIRPhase II2003Department of Defense Missile Defense Agency
  4. Vacuum Pressure Impregnation Insulation Systems for High Temperature Fusion Applications

    Amount: $99,996.00

    72336S03-I Newly designed and proposed fusion magnet systems will require electrical insulation capable of withstanding high temperatures and high doses of radiation. Due to the lack of cost effecti ...

    SBIRPhase I2003Department of Energy
  5. Radiation Resistant Insulation with Improved Shear Strength for Fusion Magnets

    Amount: $0.00

    70312S02-II Magnet insulation materials, used in many Next-Step Option fusion research devices, will be subjected to high stresses at both cryogenic and elevated temperatures. Unfortunately, at hi ...

    SBIRPhase I2003Department of Energy
  6. Innovative Inorganic Fusion Magnet Insulation Systems

    Amount: $99,997.00

    72206S03-I Magnet systems for Next Step Option (NSO) fusion devices will require insulation systems that can tolerate exposure to high levels of radiation as well as both cryogenic and elevated tempe ...

    SBIRPhase I2003Department of Energy
  7. LOX Compatible Polymer Composite Cryogenic Pressure Vessel

    Amount: $699,318.00

    The proposed work aims to develop, characterize and demonstrate a novel and highly innovative hybrid material system for lightweight, linerless all-composite tanks used in the mixing, storage and tran ...

    SBIRPhase II2003Department of Defense Missile Defense Agency
  8. Self-Locking Linear Actuator for Precision Deployment

    Amount: $69,796.00

    Future Space-Based Laser (SBL) weapons and high-resolution imaging systems will incorporate large, deployable reflectors that must efficiently package for launch. However, the use of deployment mecha ...

    SBIRPhase I2003Department of Defense Missile Defense Agency
  9. Lightweight Composite Chemical Storage Tank

    Amount: $69,687.00

    Composite Technology Development, Inc. (CTD) proposes to develop and demonstrate a novel hybrid composite material for application to lightweight chemical storage tanks for MDA applications. In Phas ...

    SBIRPhase I2003Department of Defense Missile Defense Agency
  10. Radiation Resistant Insulation with Improved Shear Strength for Fusion Magnets

    Amount: $749,451.00

    70312S02-II Magnet insulation materials, used in many Next-Step Option fusion research devices, will be subjected to high stresses at both cryogenic and elevated temperatures. Unfortunately, at hi ...

    SBIRPhase II2003Department of Energy
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