Company Filing History:
Years Active: 1989
Title: Kazuo Marugama: Innovator in Electrophotographic Technology
Introduction
Kazuo Marugama is a prominent inventor hailing from Kanagawa, Japan. He is best known for his contributions to electrophotographic technology, which have significantly influenced the printing and imaging industry. With one patent to his name, Marugama's expertise lies in developing methods that enhance the efficiency and quality of image recording.
Latest Patents
Marugama holds a patent for an “Electrophotographic Image Recording Method.” This innovative method involves creating an electrostatic latent image on a latent image carrier, followed by a multi-step process where the image is developed with toner and transferred to a final transfer material. One of the key features of this patent is the use of a double-element developer, made from a mix of toner and a magnetic carrier, which boasts a lower density of 4.0 g/cm³ or less during certain developing steps. This technique improves the overall effectiveness of producing high-quality images.
Career Highlights
Kazuo Marugama is associated with Fuji Xerox Co., Ltd., a leading company in imaging and document technology. His work has contributed significantly to the advancements in electrophotography, enhancing the quality and speed of printing solutions. Over the years, Marugama's innovations have helped Fuji Xerox maintain its reputation as a pioneer in the field.
Collaborations
Throughout his career, Marugama has collaborated with notable colleagues such as Kiyoshi Horie and Tsuneo Noami. These partnerships have fostered a creative environment that leads to continuous innovation and improvement in imaging technologies.
Conclusion
Kazuo Marugama's contributions to the field of electrophotographic image recording showcase his dedication to advancing imaging technology. Through his innovative methods and collaborations at Fuji Xerox Co., Ltd., he has made a lasting impact on the industry, setting a benchmark for quality and efficiency in the realm of image recording.