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MRL MATERIALS RESOURCES LLC

Company Information
Address
2650 Indian Ripple Rd
Beavercreek, OH 45440-3605
United States


http://www.icmrl.net

Information

DUNS: 831845255

# of Employees: 34


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No



Award Charts




Award Listing

  1. Lightweight Rapid Alloy Development and Fabrication using ICME based Optimization

    Amount: $139,892.00

    Magnesium alloys offer an attractive combination of good mechanical properties with very low density, making these materials strong candidates for structural applications such as gearboxes for rotary ...

    STTRPhase I2021Department of Defense Navy
  2. Algorithmic Solutions for Third Party Low-Cost Sensing of LPBF

    Amount: $99,487.00

    Most current in-situ sensing technologies seek to limit LPBF failures by directly evaluating part quality, or process monitoring. For example, monitoring the thermal properties of the build to predict ...

    SBIRPhase I2020Department of Defense Defense Logistics Agency
  3. Certification of Structural Additive Manufacturing Parts for DoD Applications Through Well-Defined Durability and Damage Tolerance Requirements

    Amount: $598,507.00

    Certifying structural parts made by additive manufacturing for DoD applications requires evaluation of their stability, manufacturability, characterization of mechanical and physical properties, and p ...

    SBIRPhase II2020Department of Defense Defense Logistics Agency
  4. ICME-based fatigue life prediction for additive manufactured metallic components

    Amount: $139,685.00

    Despite the tremendous benefits of additive manufacturing (AM) to our warfighters, uncertainty in fatigue life predictions have been a major roadblock for certifying metallic AM parts to fly. We are p ...

    STTRPhase I2020Department of Defense Navy
  5. Rapid ICME-based Multiphysics Modeling of Surface Roughness in LPBF Ti6Al4V

    Amount: $139,964.00

    The uncertainty in predicting surface roughness and subsurface defects in as-built additively manufactured (AM) parts is hindering the wide utilization of AM for mission critical components that exhib ...

    STTRPhase I2020Department of Defense Navy
  6. Smart ICME for Enhanced Fatigue Life in Metal Additive Manufacturing

    Amount: $140,000.00

    Fatigue life of parts produced by metal additive manufacturing is determined by the complex interaction of defects, surface properties, and material microstructure.  Each of these constituents is aff ...

    STTRPhase I2020Department of Defense Navy
  7. Development and comparison of powder production processes of novel high strength FeMnAlC alloy for AM applications

    Amount: $111,394.76

    In this proposed effort, MRL will explore several powder production techniques to produce a new FeMnAlC based steel powder. This material is in high demand by the Army for ground vehicle repair by add ...

    SBIRPhase I2020Department of Defense Army
  8. Thermodynamic modeling of a high entropy alloy for ICME based optimization of corrosion resistance

    Amount: $149,950.00

    The complex nature of the phase evolution and interactions in high entropy alloys (HEAs) produced through additive manufacturing is an area of great interest due to potential applications in high stre ...

    STTRPhase I2020Department of Defense Air Force
  9. Crystallographic orientation mapping of minimally prepeared large nonplanar surfaces

    Amount: $138,893.00

    The importance of determining crystallographic orientation information over large areas has existed within the materials science community for solutions to a variety of applications in aerospace and o ...

    SBIRPhase I2019Department of Defense Navy
  10. Microstructure-Informed ICME for Optimizing Post-Build Heat Treatment (HT) and Hot Isostatic Pressing (HIP) Processes for Enhanced Fatigue Performance

    Amount: $299,965.00

    Optimization of the mechanical properties of additively manufactured metallic material often requires a combination of hot isostatic pressing and/or post-build heat treatments to achieve the desired c ...

    SBIRPhase II2019Department of Defense Navy
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