Company Filing History:
Years Active: 2012-2013
Title: Innovations by Tsukasa Kawakami
Introduction
Tsukasa Kawakami is a notable inventor based in Yokohama, Japan. He has made significant contributions to the field of resin layer formation technology. With a total of 3 patents to his name, Kawakami's work focuses on improving manufacturing processes in various applications.
Latest Patents
Kawakami's latest patents include a resin layer formation method, a resin layer formation device, and a disk and disk manufacturing method. These innovations provide a method and device for creating a uniform resin layer on a substrate before lamination or coating. The process involves coating adhesive at the inner circumference side while rotating a substrate at low speed. A first adhesive layer is formed on the substrate's surface by rotating it at high speed. A step difference section is created around the rotation center of the substrate by irradiating ultraviolet light on a specific area of the first adhesive layer, which hardens that area. Subsequently, adhesive is coated at the rotation center side from the step difference section, and a second adhesive layer is formed on the first adhesive layer by rotating the substrate at high speed. The integration of the first and second adhesive layers results in a uniform adhesive layer.
Career Highlights
Kawakami is currently employed at Shibaura Mechatronics Corporation, where he continues to develop innovative technologies. His work has been instrumental in advancing the efficiency and effectiveness of resin layer formation processes.
Collaborations
Kawakami has collaborated with notable coworkers such as Tomokazu Ito and Hisashi Nishigaki. Their combined expertise has contributed to the successful development of various projects within their field.
Conclusion
Tsukasa Kawakami's contributions to resin layer formation technology highlight his innovative spirit and dedication to advancing manufacturing processes. His patents reflect a commitment to improving efficiency and quality in production methods.