Company Filing History:
Years Active: 2009
Title: Takashi Yambe: Innovator in Bonded Magnet Technology
Introduction
Takashi Yambe is a prominent inventor based in Sendai, Japan. He is known for his significant contributions to the field of magnetic devices, particularly in the manufacturing of bonded magnets. His innovative approach has led to advancements in the efficiency and effectiveness of magnetic applications.
Latest Patents
Yambe holds a patent for a "Method for manufacturing bonded magnet and method for manufacturing magnetic device having bonded magnet." This patent describes a process where a viscous material is created by mixing an alloy magnetic powder, which is pre-magnetized, with a resin. The resulting viscous material is applied to the upper surface of a center magnetic leg of an E-shaped core. A coil and an I-shaped core are then coupled to the E-shaped core. During the hardening of the resin, an orientation magnetic field is applied using a permanent magnet. This innovative method results in a bonded magnet that is tightly secured to both surfaces defining the magnetic gap between the E-shaped core and the I-shaped core.
Career Highlights
Yambe's career is marked by his dedication to research and development in the field of magnet technology. His work at NEC Tokin Corporation has been instrumental in pushing the boundaries of what is possible in magnetic device manufacturing. His innovative methods have not only improved product quality but have also enhanced the performance of various applications that rely on bonded magnets.
Collaborations
Throughout his career, Takashi Yambe has collaborated with notable colleagues, including Shigun Oh and Teruhiko Fujiwara. These collaborations have fostered a creative environment that has led to further advancements in their respective fields.
Conclusion
In summary, Takashi Yambe is a key figure in the development of bonded magnet technology. His innovative methods and dedication to his work have made a significant impact on the industry. His contributions continue to influence the future of magnetic device manufacturing.