Company Filing History:
Years Active: 2013
Title: Innovations by Mariko Mine in Organopolysiloxane Technology
Introduction
Mariko Mine, an accomplished inventor based in Kurashiki, Japan, has made significant contributions to the field of materials science. With a focus on organopolysiloxane compositions, her work has resulted in innovative solutions for enhancing the performance of rope structures. Her singular patent showcases her expertise and commitment to advancing technology in this domain.
Latest Patents
Mariko Mine holds a patent titled "Organopolysiloxane composition and process for producing rope structure with the same." This invention provides an organopolysiloxane composition that excels in fatigue resistance, addressing critical needs in the production of durable rope structures. The composition includes an organopolysiloxane characterized by an average polymerization degree between 50,000 to 200,000, represented by a specific chemical formula. This novel approach not only enhances the performance of the rope structures but also contributes to their longevity and reliability.
Career Highlights
Mine's career has been marked by her role at Kuraray Co., Ltd., a prominent company in the materials industry. Her position at this innovative establishment has allowed her to develop and refine her cutting-edge research into practical applications that benefit various sectors requiring robust materials. Through her dedication, she has positioned herself as a key figure within her specialization.
Collaborations
Throughout her career, Mariko Mine has collaborated with talented professionals such as Akihiro Uehata and Yuji Ogino. These collaborative efforts have not only enriched her own work but have also helped foster a dynamic research environment that encourages creative solutions and innovative thinking.
Conclusion
Mariko Mine stands out as a crucial innovator in the field of organopolysiloxane technology. Her patent reflects her deep understanding of material properties and their applications, particularly in the creation of fatigue-resistant rope structures. With continued innovation and collaboration, she is sure to make further advancements that will benefit various industries reliant on resilient materials.