Scientific Forming Technologies Corporation

Address

2545 Farmers Drive Suite 200
Columbus, OH, 43235-

http://www.deform.com

Information

DUNS: 789156841
# of Employees: 59

Ownership Information

Hubzone Owned: N
Socially and Economically Disadvantaged: N
Woman Owned: N

Award Charts




Award Listing

  1. Integrated Computational Material Engineering Approach to Additive Manufacturing for Stainless Steel (316L)

    Amount: $79,961.00

    We are proposing to identify an ICME architecture that will enable the multi-scale modeling of additive manufacturing (AM) process at both the component level as well as at the meso-scale level such t ...

    STTRPhase I2016Department of Defense Navy
  2. Advanced Forging Manufacturing Innovations

    Amount: $149,894.00

    Forging process is widely used in the manufacture of critical mission sensitive components that require high strength and better consistent performance in service conditions. Process modeling for forg ...

    SBIRPhase I2014Department of Defense Defense Logistics Agency
  3. Integrated Computational Materials Engineering in Multiphysics Software

    Amount: $149,956.00

    Our team will investigate a multiscale modeling framework to predict the final microstructure of a dual phase Ti 6-4 component as a function of thermo-mechanical processing. The microstructure proper ...

    SBIRPhase I2014Department of Defense Navy
  4. Modeling for the Robust Design of Materials for Superplastic Forming Processes for Titanium Structural Components

    Amount: $79,993.00

    Superplastic forming process (SPF) takes advantage of unique ability of certain materials such as titanium alloys that exhibit exceptionally high tensile ductility beyond its normal limits of plastic ...

    STTRPhase I2012Navy Department of Defense
  5. Residual Stress Engineering for Aerospace Structural Forgings

    Amount: $149,949.00

    ABSTRACT: Manufacturing of jet engine and aerospace structural components involve a series of thermo-mechanical processes such as forging, heat treatment, machining and joining processes. During the ...

    SBIRPhase I2012Department of Defense Air Force
  6. Probabilistic Prediction of Location-Specific Microstructure in Turbine Disks

    Amount: $734,599.00

    Numerical modeling tools can facilitate the process design, performance evaluation, and lifing prediction of a number of high-end components, including critical rotating jet engine parts. They can pre ...

    STTRPhase II2011Navy Department of Defense
  7. Integrated Processing and Probabilistic Lifing Models for Superalloy Turbine Disks

    Amount: $1,499,797.00

    Currently there is no commercial software modeling capability which correlates the details of a manufacturing process to the probabilistic lifing analysis of a component. Since fatigue life of a nick ...

    SBIRPhase II2011Air Force Department of Defense
  8. Probabilistic Prediction of Location-Specific Microstructure in Turbine Disks

    Amount: $99,945.00

    While there are established methods available in determining the fatigue life of critical rotating components, there is still room for improvement for better understanding and prediction of life limit ...

    STTRPhase I2010Navy Department of Defense
  9. Modeling Spin Test Using Location Specific Material Properties

    Amount: $749,874.00

    Jet engine disk components are increasingly subjected to higher operating temperatures. To meet the demands of increasing thrust and higher operating temperatures, a newer generation of nickel based ...

    STTRPhase II2010Air Force Department of Defense
  10. Integrated Processing and Probabilistic Lifing Models for Superalloy Turbine Disks

    Amount: $99,916.00

    Integrating process modeling capabilities with probabilistic lifing methods will greatly help the jet engine industry in improving fatigue life predictions and risk assessment of jet engine disk compo ...

    SBIRPhase I2010Air Force Department of Defense

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