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TEMPER INC

Company Information
Address
12333 LUYK DR NE
CEDAR SPRINGS, MI 49319-8258
United States


https://www.temperinc.com

Information

UEI: EF8CRCC5SUC7

# of Employees: 7


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No



Award Charts




Award Listing

  1. Rapid Turnaround, Low Tooling Cost, Highly Accurate Processing Temperatures and Volume Part Production of Thermoplastic Parts

    Amount: $75,000.00

    Overview: Temper’s laminated technology combines universal tooling base production with smart susceptors and additive manufacturing to accelerate production time of composite parts to original OEM s ...

    SBIRPhase I2023Department of Defense Air Force
  2. Rapid densification of titanium and allotropic powders into near net shapes

    Amount: $74,893.00

    Temper develops innovative advanced manufacturing technologies using magnetic fields, that allows accelerated manufacturing of compound parts at order-of-magnitude reduced costs. The Titanium Magnetic ...

    SBIRPhase I2023Department of Defense Air Force
  3. High rate production of airframes using smart susceptor tooling inserts and smart susceptor welding.

    Amount: $140,000.00

    Within the US Navy, composite structures range from seat brackets to entire aircraft. Whether the composite structure is a cruise missile, a UAV or an entire aircraft, each is equally important. Howev ...

    SBIRPhase I2023Department of Defense Navy
  4. Welding of Thermoplastic Composites Using Smart Susceptor Technology

    Amount: $124,999.00

    This SBIR addresses the NASA subtopic Z3.03, Development of Advanced Joining Technologies. Humanityrsquo;s future in space requires technologies that enable long-duration, long-endurance missions to s ...

    SBIRPhase I2021National Aeronautics and Space Administration
  5. Densification of Titanium Powder Using Thermal Cycling

    Amount: $50,000.00

    Titanium plays a major role in the area of light-weighting, but it has failed to become mainstream due to manufacturing difficulties driving up cost. The objective of the proposed research is to chang ...

    SBIRPhase I2020Department of Defense Air Force
  6. Mag Forming- Harnessing Magnetoplasticity for Low Temperature Forming of Thick Gage Armored Steels

    Amount: $999,999.80

    The goal of the Phase II research is to demonstrate the forming of armored steel plate using magnetoplasticity. This technology, called Mag Forming, is based on the phase I results that will demonstra ...

    SBIRPhase II2016Department of Defense Army
  7. TiPAD- Titanium Puck and Densification Technologies for Affordable Mass Production of Automotive and Aerospace Components

    Amount: $1,000,000.00

    The titanium puck and densification (PAD) program addresses the problem of mass producing lightweight, high temperature engine components for automotive applications. The solution is to create a conta ...

    SBIRPhase II2015Department of Energy
  8. Rapid Manufacturing of Titanium Components by Consolidating Powdered Titanium in a Near-Net-Shape Tool Through the Application of Pressure and Thermal Cycling using Smart Susceptors.

    Amount: $150,000.00

    The Corporate Average Fuel Economy (CAFE) standards for 2025 states that average new vehicle fuel economies to reach 60 miles per gallon for cars and 43 miles per gallon for trucks by 2025. In order t ...

    SBIRPhase I2014Department of Energy
  9. Mag Forming- Harnessing Magnetoplasticity for Low Temperature Forming of Thick Gage Armored Steels

    Amount: $150,000.00

    The goal of the Phase I research is to identify the process parameters required to form armored steel plate using magnetoplasticity. This technology, called Mag Forming, is based on theoretical magnet ...

    SBIRPhase I2014Department of Defense Army
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