Company Filing History:
Years Active: 2008-2018
Title: Innovations by Sharon W Birk in Textile Engineering
Introduction
Sharon W Birk is a notable inventor based in Wilmington, DE (US), recognized for her contributions to textile engineering. She has been awarded 2 patents that focus on enhancing the performance of fabrics used in military apparel and other applications. Her innovative work has significantly impacted the field of functional textiles.
Latest Patents
One of her latest patents involves the development of knit fabrics and base layer garments that possess improved thermal protective properties. These fabrics are constructed from a blend of nylon and cotton staple fibers, with a weight ratio of cotton to nylon ranging from about 55:45 to about 85:15. The resulting fabrics weigh between about 3 to about 8 oz/yd and offer a desirable combination of thermal protection, abrasion resistance, bursting strength, and drying time characteristics.
Another significant patent focuses on stretchable fabrics that incorporate elastics into NYCO for use in combat uniforms. This stretchable fabric contains about 2 to about 4 wt. % elastic, such as LYCRA®, and exhibits a fabric stretch of about 20 to about 50%. It is designed to meet military uniform standards while providing mobility and comfort. The fabric maintains essential characteristics such as breaking strength, tear resistance, air permeability, and abrasion resistance.
Career Highlights
Sharon W Birk has made substantial contributions to her field through her work at Invista North America S.a.r.l. Her innovative approaches to fabric technology have set new standards in the industry.
Collaborations
She has collaborated with notable colleagues, including Yashavant V Vinod and Douglas A Bloom, to further advance her research and development efforts.
Conclusion
Sharon W Birk's innovative work in textile engineering has led to significant advancements in the performance of military apparel and functional fabrics. Her contributions continue to influence the industry and enhance the capabilities of modern textiles.