Company Filing History:
Years Active: 2023
Title: **Innovative Solutions by Qingyuan Deng: A Spotlight on Elasticized Absorbent Articles**
Introduction
Qingyuan Deng, based in the Jiangning District of Nanjing, China, is an inventive force in the field of absorbent technology. As a valued team member of Kimberly-Clark Worldwide, Inc., she has made significant contributions to product innovation, particularly in the development of elasticized absorbent articles.
Latest Patents
Qingyuan holds a patent for "Elasticized absorbent articles and methods of weakening elastic portions in elasticized absorbent articles". This innovative patent describes absorbent articles that incorporate weakened elasticized portions as well as methods of manufacture. The approach involves applying varying amounts of adhesive to different regions of the elasticized strand and web materials to create an elasticized web. This web features distinct bonding regions, allowing for enhanced performance and wearability, particularly by partially weakening the waist panel elastic strand.
Career Highlights
Throughout her career, Qingyuan has successfully demonstrated her expertise in inventive design and product development within the absorbent article industry. Her patent showcases her ability to address practical challenges through innovation, reinforcing her status as a key contributor at Kimberly-Clark.
Collaborations
She has collaborated with esteemed colleagues Brian Keith Rhodes and Timothy A. Thorson, exchanging insights and expertise to further advance their shared goals in the realm of innovative absorbent technologies. Such teamwork underscores the collective effort to enhance product functionality and address consumer needs effectively.
Conclusion
Qingyuan Deng exemplifies the spirit of innovation within the absorbent articles sector. Her impactful patent reflects her inventiveness and commitment to improving everyday products. As she continues to push the boundaries of technology with Kimberly-Clark Worldwide, her future contributions are anticipated to further revolutionize the industry.