Future TEK USA Corp.

454 Patterson Rd.
Dayton, OH 45419
http://www.futuretek-corp.com
4 Employees

SBIR Award Summary

Total Number of Awards 5
Total Value of Awards $1.42MM
First Award Date 01/01/05
Most Recent Award Date 04/16/07

Key Personnel

Last Name Name Awards Contact
Shen Ms. Yuhui Shen 2 Message
Liu Sam Liu 3 Message
He Youngson He 3 Message

5 Awards Won

Phase 2 SBIR

Agency: Air Force
Topic: AF06-175
Budget: 04/16/07 - 08/16/09
PI: Sam Liu

Worldwide efforts to synthesize Nd-Fe-B or Sm-Co nanoparticles have been unsuccessful because of oxygen pickup. An alternative approach to synthesizing interface-exchange-coupled magnets with uncharted superior properties is to create a microstructure with highly dispersed soft phase (Fe or Fe-Co) embedded in the nanograin hard phase (Nd-Fe-B o...

Phase 2 STTR

Institution: University of Dayton

Agency: Air Force
Topic: AF05-T024
Budget: 12/08/06 - 12/08/08
PI: Sam Liu

Permanent magnet materials with high energy product of (BH)max = 30 MGOe at 450°C are needed for advanced Air Force power and weapon systems, which represents a 150% improvement in magnetic performance. Owing to the degree of difficulty this objective is unlikely achievable if using any existing permanent magnets, such as conventional high temp...

Phase 1 SBIR

Agency: Air Force
Topic: AF06-175
Budget: 04/04/06 - 01/04/07

The critical technical issue in synthesizing bulk anisotropic interface-exchange-coupled magnets with magnetic performance superior to conventional magnets is to create a composite magnet microstructure in which a highly dispersed nanometer-sized magnetically soft phase, such as -Fe-or Fe-Co, is uniformly distributed in a nanograin magnetically...

Phase 1 STTR

Institution: University of Dayton

Agency: Air Force
Topic: AF05-T024
Budget: 08/01/05 - 05/01/06
PI: Sam Liu

Permanent magnet materials with high energy product of (BH)max = 30 MGOe at 450°C are needed for advanced Air Force power and weapon systems. This required magnetic performance represents a 150% improvement over the best existing materials. Owing to the very high degree of difficulty, this objective is unlikely achievable if using any existing...

Phase 1 STTR

Institution: University of Dayton

Agency: Department of Energy
Topic: 2005
Budget: 01/01/05 - 12/31/05

79428 Recently, the energy product of bulk nanocomposite Nd2Fe14B/Fe magnets has reached 50 MGOe, a level that can compete with the best conventional Nd-Fe-B magnets. With continued development, much higher energy densities (up to 90 MGOe) are anticipated. This new development represents a great opportunity for significantly improving performa...