TS-065418 — Traditional mechanical gears rely on physical teeth engagement to transfer motion and torque while magnetic gears use the repulsive or attractive forces between magnets to achieve the same goal. Magnetic gears have several advantages: low noise and vibration, reduced maintenance, and inherent overload protection. Magnetic gears are used in applications that require variable speed control and precise torque transmission, such as robotics, aircraft, and automation.

TS-063362 — Introducing our Low-Drag Smart Tether System—the future of fluid speed and direction measurement. Experience unmatched accuracy, energy efficiency, and reliability, revolutionizing how we perceive and utilize wind data in the modern age.

TS-054666 — Implementation of Halbach array cladding magnets to focus magnetic flux to improve specific torque output of magnetic gearing systems.

TS-050479 — This invention provides a method for repairing metal parts by removing and replacing worn, damaged, or defective metal material. It also serves as a method for seamlessly joining metal sheets and other parts while retaining the original temper of the joined parts. This technology, based on ultrasonic additive manufacturing (UAM), achieves strong joints and repairs by enabling the filling of a channel that has been cut, formed, or otherwise created in a metal structure or between two metal structures.

TS-050057 — A method for manufacturing surgical tools and implants with strong, gapless joints between NiTi (Nitinol) and stainless steel to capitalize on the best properties of both materials.

TS-037339 — Emerging technology that uses solid state ultrasonic metal welding to create metal parts.

TS-037334 — A method for reinforcing formed metal parts with fiber and/or metallic reinforcement.