Location History:
- Yokohama, JP (2008)
- Tokyo, JP (2010)
Company Filing History:
Years Active: 2008-2010
Title: **Miyuki Ueno: Innovator in Cleaning Technology**
Introduction
Miyuki Ueno, an accomplished inventor based in Yokohama, Japan, has made significant contributions to the field of cleaning technologies. With three patents to her name, she focuses on developing innovative solutions for improving efficiency in toner removal processes. Her expertise is notable in the area of material science, particularly pertaining to polyurethane composites.
Latest Patents
Among her latest inventions is a highly specialized cleaning blade designed for removing toner from toner-deposited bodies. This cleaning blade member features a dual-layer structure consisting of a cleaning layer and an elastic layer. Both layers are crafted from a polyurethane member made through a carefully controlled curing and molding process. The cleaning layer incorporates a combination of a long-chain polyol, polyisocyanate, and a low-melting-point diamino compound, while the elastic layer blends a long-chain polyol with short-chain diols and triols. This innovative composition results in a cleaning blade with essential properties such as a percent edge drooping maximum of 7.0% and an overall Young's modulus between 5.0 to 14.0 MPa.
Career Highlights
Miyuki Ueno works at Synztec Co., Ltd., where she directs her research towards elevating toner clean-up technologies. Her career is marked by her dedication to refining the performance of cleaning devices, ensuring they meet both durability and efficiency standards.
Collaborations
In her innovative journey, Ueno collaborates with notable colleagues, including Shuji Abe and Masahiro Omori. Together, they push the boundaries of technology and work towards creating products that meet the increasing demands of the modern printing industry.
Conclusion
Miyuki Ueno stands out as a prominent figure in the innovation landscape, demonstrating her commitment to enhancing cleaning solutions within the printing sector. Her patents reveal a deep understanding of material properties and their applications, paving the way for advancements that could redefine industry standards.