Company Filing History:
Years Active: 1994
Title: The Innovations of Yukimi Miwa
Introduction
Yukimi Miwa is a prominent inventor based in Amagasaki, Japan. She has made significant contributions to the field of materials science, particularly in the development of sensors for industrial applications. Her innovative work has led to the creation of a patented zirconia oxygen sensor, which plays a crucial role in measuring oxygen potential in molten metals and alloys.
Latest Patents
Yukimi Miwa holds a patent for a zirconia oxygen sensor designed for measuring oxygen potential in the molten bath of metals or alloys with melting points ranging from 350 to 550 degrees Celsius. This sensor comprises a reference electrode made from a substance that remains liquid at the measurement temperature and is open to the atmosphere. The vessel contains a zirconia solid electrolyte with specific percentages of yttria or calcium oxide, along with a lead wire connecting the reference electrode to the molten metal or alloy. This invention enhances the accuracy and reliability of measurements in high-temperature environments.
Career Highlights
Miwa has been associated with Nisshin Steel Co., Ltd., where she has contributed her expertise in sensor technology. Her work has not only advanced the capabilities of industrial sensors but has also improved the efficiency of metal processing. With her innovative approach, she has established herself as a key figure in her field.
Collaborations
Yukimi Miwa has collaborated with notable colleagues, including Shigeo Matsubara and Toshiro Yamada. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and the development of cutting-edge technologies.
Conclusion
Yukimi Miwa's contributions to the field of sensor technology exemplify the impact of innovative thinking in industrial applications. Her patented zirconia oxygen sensor represents a significant advancement in measuring oxygen potential in molten metals, showcasing her dedication to enhancing industrial processes.