Location History:
- McMinnville, OR (US) (2015)
- Lebanon, OR (US) (2013 - 2019)
Company Filing History:
5 out of 7 
1 out of 1 Years Active: 2013-2019
Title: **Innovator Matthew H. Noble: A Trailblazer in Composite Materials**
Introduction
Matthew H. Noble, a prominent inventor based in Lebanon, Oregon, has made significant contributions to the field of composite materials with a total of six patents to his name. His innovative methodologies are aimed at enhancing the construction industry, particularly in the fabrication of highway dowel bars.
Latest Patents
Among his latest inventions is a sophisticated method titled "Plural-component, composite-material highway dowel bar fabrication methodology." This innovative process involves a series of precise steps, including the preparation of an elongate core train comprised of alternating high-shear-strength cylindrical cores and shorter fiber-reinforced plastic-resin end-plug blanks. The methodology utilizes the core train as a moving mandrel to pultrusion-form a fiber-reinforced plastic-resin sleeve around it, ultimately resulting in the production of completed dowel bars through systematic cross-cutting of the intermediate dowel-bar product.
Career Highlights
Matthew has had a distinguished career in the composite materials sector, working with renowned companies such as Composite Rebar Technologies, Inc., where he further honed his expertise. His innovative approaches have not only advanced the technology in his field but also paved the way for safer and more efficient construction practices.
Collaborations
Throughout his career, Matthew has collaborated with noteworthy professionals, including Robert C. Gibson and Trent J. Garber. These partnerships have facilitated the exchange of ideas and fostered a collaborative environment conducive to innovation.
Conclusion
Matthew H. Noble stands as a testament to the power of innovation within the composite materials industry. With his cutting-edge patents and collaborative spirit, he continues to shape the future of construction technology, leaving a lasting impact on the engineering community. As he forges ahead, the potential for further breakthroughs remains vast and exciting.