Location History:
- Kanagawa-ken, JP (2004)
- Kagawa-Ken, JP (2003 - 2005)
Company Filing History:
Years Active: 2003-2005
Title: Emiko Inoue: Innovator in Elastically Stretchable Nonwoven Fabrics
Introduction
Emiko Inoue is an accomplished inventor based in Kagawa-ken, Japan. With a total of three patents to her name, she has made significant contributions to the field of nonwoven fabrics, particularly focusing on elastically stretchable materials. Her work demonstrates her dedication to innovation and improving material properties for various applications.
Latest Patents
One of Emiko's notable patents is for an elastically stretchable nonwoven fabric and the process for making it. This innovative fabric includes thermoplastic elastomer filaments, which are either heat-sealed or mechanically intertwined to create a nonwoven structure. This unique design is characterized by distinct crimped and non-crimped regions, with the crimped areas exhibiting fine crimps at a density of 50 per centimeter or higher. The technology behind this fabric can lead to advancements in various industries, providing a new level of functionality and comfort.
Career Highlights
Emiko Inoue is associated with Unicharm Corporation, a leading firm in the consumer goods sector, specializing in hygiene products. Her role as an inventor has positioned her at the forefront of research and development within the company, contributing to sustainable and innovative fabric solutions.
Collaborations
Emiko frequently collaborates with esteemed colleagues such as Toshio Kobayashi and Satoru Tange, who share her passion for innovation in textiles. Together, they contribute to a collaborative environment where creative ideas can flourish, leading to the development of groundbreaking materials and processes.
Conclusion
Emiko Inoue stands out as a prominent inventor in the realm of elastically stretchable nonwoven fabrics. Her contributions to Unicharm Corporation and her trio of patents reflect her commitment to enhancing fabric technology. As the industry evolves, her innovations are likely to pave the way for new applications and advancements, solidifying her legacy as a significant figure in this field.