Atsuo Tago

Title: Innovations of Atsuo Tago: Pioneering Patents in Polymer Science

Introduction

Atsuo Tago is a notable inventor based in Kitakyushu, Japan, recognized for his contributions to the field of polymer science. With two patents to his name, Tago has developed methods that enhance the properties and processing of acrylamide polymers, showcasing his expertise and innovation in this specialized area.

Latest Patents

Atsuo Tago's latest patents focus on the production and processing of acrylamide polymers. His first patent, titled "Method of Producing Partially Hydrolyzed Acrylamide Polymers," describes an innovative approach to partially hydrolyze acrylamide polymers or copolymers using a mixing apparatus. This apparatus features blades designed with a blank space and is constructed with synthetic resin to facilitate efficient mixing.

The second patent, "Process for Removing Water from Water Soluble Polymer," presents an improved technique for eliminating water from aqueous gels of water-soluble polymers, including acrylamide and quaternary ammonium salts. This process employs the addition of polyhydric phenols or benzoquinones before water removal, which helps maintain the polymer's properties even under elevated temperatures.

Career Highlights

Atsuo Tago has worked at prominent companies in the chemical industry, including Mitsubishi Chemical Industries Limited and Kyoritsu Yuki Co., Ltd. His experience at these organizations has undoubtedly contributed to his inventive capabilities and understanding of polymer technologies.

Collaborations

Throughout his career, Tago has collaborated with notable professionals, including Hiroyuki Kudomi and Yasuyuki Nakanishi. These partnerships have enriched his research and development efforts, allowing for broader innovation within the field of polymer science.

Conclusion

Atsuo Tago's innovative patents reflect his significant contributions to the advancements in polymer processing and production. His work not only enhances the functionality of acrylamide polymers but also sets a foundation for future developments in this critical area of materials science.