Company Filing History:
5 out of 622 
1 out of 2,352 Years Active: 1981-2005
Title: Tomoichi Morita: Innovator in Imaging Material Technology
Introduction
Tomoichi Morita is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of imaging materials, holding a total of five patents. His work focuses on enhancing the quality and performance of imaging materials through innovative support structures.
Latest Patents
One of Morita's latest patents is a support for imaging material that provides a high gloss appearance while eliminating non-uniformity in gloss. This invention also improves the peeling properties from a cooling roll and maintains high stiffness, allowing for stable production at high speeds. The support is a resin-coated paper-based structure, featuring a multi-layered design for both the resin sheet and the base paper. The resin sheet on the front surface is made from polyolefin resin, and the base paper is composed mainly of natural pulp with specific fiber lengths. Another patent focuses on a resin-coated paper-based support that comprises a multilayered base paper and a polyolefin resin sheet on the image-forming side. The careful control of thickness, fiber length, pulp composition, and freeness of the paper layers results in an imaging material with enhanced gloss, stiffness, and curl resistance.
Career Highlights
Throughout his career, Morita has worked with prominent companies such as Mitsubishi Paper Mills Limited and Mitsubishi Chemical Corporation. His experience in these organizations has allowed him to develop and refine his innovative ideas in imaging technology.
Collaborations
Some of Morita's notable coworkers include Touru Noda and Nobu Yasuda. Their collaboration has contributed to the advancement of imaging material technologies.
Conclusion
Tomoichi Morita's contributions to the field of imaging materials through his patents and career achievements highlight his role as an influential inventor. His innovative approaches continue to shape the industry and improve the quality of imaging materials.