Company Filing History:
Years Active: 1976
Title: **James A Crawford, Jr: Innovator in Multifilament Composites**
Introduction
James A Crawford, Jr, based in Portland, ME, has made significant contributions to the field of composite materials. With a focus on enhancing strength properties through innovative designs, Crawford exemplifies the spirit of invention that drives industries forward.
Latest Patents
One of Crawford’s notable patents involves multifilament composites. This invention presents a composite structure characterized by isotropic strength properties. The design includes a three-dimensional network of reinforcing yarns that are embedded within a material body. Specifically, the invention arranges the yarns into several groups, where each group consists of yarns aligned parallel to one another. Notably, yarns from at least three of these groups are meticulously positioned such that they are mutually orthogonal to one another. Additionally, at least one other group of yarns is set at diagonal angles to the yarns of the three orthogonal groups, enhancing the overall structural integrity of the composite.
Career Highlights
Crawford currently works at Fiber Materials, Inc., a company recognized for its advancements in material science. His tenure there reflects his dedication to pushing the boundaries of composite materials, enabling diverse applications across various industries.
Collaborations
Throughout his career, Crawford has likely collaborated with various experts and institutions to refine his inventions and ensure their practical application. Networking within the materials science community has undoubtedly contributed to the success of his patent, fostering opportunities for advancements in composite technology.
Conclusion
James A Crawford, Jr.’s innovative spirit and dedication to developing multifilament composites mark him as a key player in his field. With his patent showcasing significant advancements, he continues to inspire future innovations that could impact various sectors using composite materials.