Company Filing History:
Years Active: 2008
Title: Celebrating the Innovations of David Matthews Laura, Jr.
Introduction
David Matthews Laura, Jr. is a notable inventor based in Old Hickory, Tennessee, recognized for his contributions to the field of nonwoven fabric technology. With a keen understanding of materials and their applications, Laura has made significant strides in improving the functionality and performance of nonwoven fabrics.
Latest Patents
Laura holds a patent for a "Full-surface bonded multiple component melt-spun nonwoven web." This innovative product offers an impressive combination of tear strength and tensile strength at lower thicknesses compared to existing technologies. The patent reveals that the full-surface bonded multiple component webs have a void percentage ranging from about 3% to 56% and a Frazier permeability of at least 0.155 m/min-m. This advancement allows for the preparation of these nonwoven fabrics through a smooth-calendering process, enhancing their applicability in various fields.
Career Highlights
Currently, David Matthews Laura, Jr. is associated with E.I. du Pont de Nemours and Company, commonly known as DuPont. He has distinguished himself as an integral part of the team, contributing to innovations that push the boundaries of material science. His work focuses on creating superior nonwoven fabrics that cater to the evolving needs of industries.
Collaborations
Throughout his career, Laura has collaborated with fellow innovators such as Vishal Bansal and Hyun Sung Lim. Together, these professionals have shared insights and expertise, fostering an environment that encourages groundbreaking developments in the realm of nonwoven technologies.
Conclusion
David Matthews Laura, Jr.'s innovative spirit and dedication to his craft have led to advancements that significantly impact the nonwoven fabric industry. His solitary patent is a testament to his ability to create materials that combine performance and durability, solidifying his reputation as a valuable inventor in contemporary material science.