Company Filing History:
Years Active: 2015
Title: Natsuki Kamiya: Innovator in Optical Fiber Technology
Natsuki Kamiya is a prominent inventor based in Hitachi, Japan. She has made significant contributions to the field of optical fiber technology. Her innovative work has led to the development of a unique resin-coated optical fiber, which has applications in various industries.
Latest Patents
Natsuki Kamiya holds a patent for a resin-coated optical fiber. This invention includes a glass optical fiber composed of a core and a clad for coating the core. The optical fiber features a primary layer made of UV-curing resin in contact with the glass optical fiber, and a secondary layer made of the UV-curing resin disposed on the outer periphery of the primary layer. The primary layer has a two-layer structure, consisting of an inner layer in contact with the surface of the clad and an outer layer for coating the inner layer. The UV-curing resin of the inner layer has a Young's modulus of 0.9 MPa or more and 3.0 MPa or less at room temperature in a film state based on JIS standard K7113. The UV-curing resin of the outer layer has a Young's modulus of 0.1 MPa or more and 0.7 MPa or less at room temperature in a film state based on JIS standard K7113. Natsuki Kamiya has 1 patent to her name.
Career Highlights
Natsuki Kamiya is currently employed at Hitachi Metals, Ltd. She has dedicated her career to advancing optical fiber technology and has become a respected figure in her field. Her work has not only contributed to her company but has also had a broader impact on the industry.
Collaborations
Natsuki Kamiya has collaborated with notable colleagues, including Shinji Hinoshita and Tetsuya Sukegawa. These collaborations have fostered innovation and have led to the successful development of new technologies in optical fibers.
Conclusion
Natsuki Kamiya is a trailblazer in the field of optical fiber technology. Her innovative patent for resin-coated optical fiber showcases her expertise and commitment to advancing the industry. Her contributions continue to influence the future of optical fiber applications.