Junko Makino

Title: Innovations by Junko Makino: Pioneering Advances in Fiber Article Production

Introduction

Junko Makino, based in Tokyo, Japan, is a prominent inventor known for her innovative contributions in the field of fiber production. With a total of two patents to her name, Makino has made significant strides in developing methods that enhance the efficiency and quality of fiber articles.

Latest Patents

Makino's latest patents revolve around groundbreaking methods for producing fiber articles. One notable invention details a production method that involves a multi-step process. This includes a contact step where a plurality of first fibers is transferred and brought into contact with resin particles made from high molecular materials that can be fiberized. The first processing step applies external force to narrow the gaps between fibers. Following this, a second processing step relieves the external force, resulting in the formation of second fibers from the resin particles. These second fibers have an outer diameter that is notably smaller than the first fibers, ranging from 30 nm to 1.0 μm. Additionally, her second patent describes a fiber article composed of first fibers and second fibers, with the latter supported in a dispersed state by the first fibers and having a specific diameter ratio for optimal functionality.

Career Highlights

Throughout her career, Junko Makino has worked with prestigious companies including Daicel Corporation and Daikin Industries, Ltd. Her experiences in these organizations have significantly contributed to her innovative capabilities and the advancement of her patent portfolio.

Collaborations

Makino has collaborated with esteemed colleagues, including Yoshitaka Ito and Hiroaki Shintani. These partnerships reflect a shared commitment to pushing the boundaries of fiber technology and enhancing product capabilities.

Conclusion

Junko Makino stands as a remarkable figure in the realm of fiber innovation. Her patents not only showcase her ingenuity but also promise advancements in the manufacturing of fiber articles. As she continues her work, her contributions are likely to lead to further innovations that will benefit various industries reliant on advanced fiber technologies.