Company Filing History:
Years Active: 1995
Title: The Ingenious Innovations of Itsuo Tanaka
Introduction: Itsuo Tanaka is a notable inventor hailing from Chiba, Japan. He has made significant contributions to the field of magnet technology, specifically through his innovative patent related to anisotropic permanent magnets. His work is a testament to the creativity and ingenuity found within the realm of mechanical engineering.
Latest Patents: Tanaka is credited with one significant patent titled "Lateral orientation anisotropic magnet." This invention describes a lateral orientation type of anisotropic permanent magnet featuring a surface for magnetic application and at least one adjacent lateral face. The unique aspect of this invention lies in the orientation of the easy magnetization axis of the magnetic powder particles, which aligns substantially along lines extending from the lateral face toward the magnetic application face. This orientation enhances the peak value of surface magnetic flux density, which is crucial for various applications in magnet technology.
Career Highlights: Tanaka's professional journey is closely associated with Kawasaki Steel Corporation, where he has demonstrated his talent and expertise in materials science. His work on magnets has not only contributed to the company's portfolio but has also progressed the technological advancements in permanent magnets.
Collaborations: Throughout his career, Tanaka has collaborated with notable colleagues, including Satoshi Nakatsuka and Akira Yasuda. These partnerships have fostered an environment of innovation, leading to the refinement and enhancement of magnet technologies that are pivotal in various industrial applications.
Conclusion: In summary, Itsuo Tanaka is an impressive figure in the field of invention, particularly known for his developments in anisotropic magnets. His contributions, particularly through his patent on lateral orientation anisotropic magnets, have marked a significant milestone in the industry. As technology continues to evolve, Tanaka's work will undoubtedly inspire future innovations in magnet technology.