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Metal Matrix Composites Reinforced by High Entropy Alloys
TS-063364 — Experience the future of advanced materials—our metal matrix composites offer a revolutionary approach to meeting the demands of modern industries. Elevate your products, enhance performance, and reduce costs with our groundbreaking technology. For a closely related technology, please visit https://oied.osu.edu/find-technologies and type "T2017-051" in the search field.
In the aerospace, defense, and automotive industries, there is a pressing demand for advanced materials that combine low weight, high strength, exceptional wear resistance, and superior high-temperature performance. Traditional methods using ceramic particles as reinforcements in aluminum matrix c…
  • College: College of Engineering (COE)
  • Inventors: Luo, Alan; Huang, Xuejun; Zhang, Jianyue
  • Licensing Officer: Zinn, Ryan

Fast-charging anodes for lithium-ion batteries
TS-063224 — The Need In the rapidly evolving landscape of electric vehicle (EV) technology, there exists a pressing commercial need for rechargeable lithium-ion batteries (LiBs) that can not only deliver high charge capacities and power densities but also address the critical issues of capacity fading and safe…
  • College: College of Engineering (COE)
  • Inventors: Kim, Jung Hyun; Jiao, Xinwei "Jocelyn"; Yap, Jun Wei; Yu, Chanyeop
  • Licensing Officer: Randhawa, Davinder

Design Features of Dissimilar Material-Reinforced Blanks and Extrusions for Forming
TS-037334 — A method for reinforcing formed metal parts with fiber and/or metallic reinforcement.
To date, a key method of lightweighting automobiles has been “down-gauging” sheet metal components or changing to a “lightweight” material such as aluminum from steel. Reducing sheet metal gage has a limitation in formed metal components based upon strength, stiffness, ener…
  • College: College of Engineering (COE)
  • Inventors: Dapino, Marcelo; Detwiler, Duane; Gingerich, Mark; Hahnlen, Ryan; Headings, Leon; Sheldon, Allen
  • Licensing Officer: Zinn, Ryan

Stretchable and Flexible E-Fiber Wire Antennas
TS-014971 — A new process to fabricate stretchable and flexible wire antennas with conductive fibers (E-fibers)
Current processes to manufacture flexible, mechanically durable antennas on E-fibers yield non-stretchable prototypes and lack fine print details. The geometric accuracy of printed antennas is less than 1 mm, and the devices are prone to failure due to fatigue and wear from deformation. The antenn…
  • College: College of Engineering (COE)
  • Inventors: Volakis, John; Kiourti, Asimina
  • Licensing Officer: Randhawa, Davinder

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