Company Filing History:
Years Active: 2015-2025
Title: Satoshi Maeda: Innovator in Laminate Technology
Introduction
Satoshi Maeda is a prominent inventor based in Otsu, Japan. He has made significant contributions to the field of laminate technology, holding a total of 7 patents. His work focuses on the development of innovative materials that enhance the usability and efficiency of laminate products.
Latest Patents
Maeda's latest patents include several groundbreaking inventions. One of his notable patents is for a laminate of inorganic substrate/polymer film layer with an attached protective film. This invention allows for easy individual removal of the laminate even when stored in a stacked state for an extended period. The first laminate is characterized by including an inorganic substrate, a polymer film layer, and a first protective film, in that order. The surface roughness Ra of the surface of the inorganic substrate opposite the polymer film layer is maintained between 0.02-1.2 μm. Another significant patent is for a multilayer body and method for producing a flexible device. This invention provides a multilayer body of an inorganic substrate and a highly heat-resistant film, ensuring that the surface of the inorganic substrate remains sufficiently smooth after the removal of the highly heat-resistant film. The multilayer body uses substantially no adhesive and is designed for reusability.
Career Highlights
Satoshi Maeda has been associated with Toyobo Co., Ltd., where he has contributed to various innovative projects. His expertise in laminate technology has positioned him as a key figure in the development of advanced materials.
Collaborations
Maeda has collaborated with notable colleagues such as Tetsuo Okuyama and Toshiyuki Tsuchiya. Their combined efforts have led to significant advancements in the field of laminate technology.
Conclusion
Satoshi Maeda's contributions to laminate technology through his innovative patents and collaborations highlight his role as a leading inventor in this field. His work continues to influence the development of advanced materials that enhance usability and efficiency.