Company Filing History:
Years Active: 2021
Title: The Innovative Mind of Manyilibo J. Matthews
Introduction
Manyilibo J. Matthews is a prominent inventor based in Livermore, California, recognized for his contributions in the field of laser technology. With a focus on enhancing manufacturing processes, his innovative approach has led to the development of a patented technology that aims to improve additive manufacturing techniques.
Latest Patents
Matthews holds a patent for a "User Defined Intensity Profile Laser Beam," which describes a high-power laser beam capable of being produced with an arbitrary intensity profile. This patents address various challenges in laser materials processing, particularly in powder bed fusion additive manufacturing. The unique aspect of his invention involves creating non-uniform intensity profiles that allow for the effective printing of wide stripe areas, enabling more complex shapes instead of narrow designs. By utilizing multimode interference patterns from ribbon fibers, Matthews' technology can control the output to switch intensity 'pixels' on and off along a line, thus shaping the laser beam for superior part fabrication.
Career Highlights
Manyilibo J. Matthews has made significant strides in his career at Lawrence Livermore National Security, LLC, where he applies his expertise in advanced manufacturing technologies. His work focuses on the intersection of laser technology and material science, leading him to develop innovative solutions that enhance manufacturing efficiency and precision.
Collaborations
Throughout his career, Matthews has collaborated with other skilled professionals in the field, including Derrek Reginald Drachenberg and Jay Walter Dawson. These collaborations have fostered a dynamic environment for research and development, pushing the boundaries of what is achievable in laser applications for manufacturing.
Conclusion
Manyilibo J. Matthews represents the spirit of innovation within the field of laser technology. His patented work on user-defined intensity profile laser beams showcases his commitment to advancing manufacturing processes and overcoming existing challenges. As he continues to push the limits of technology, Matthews' contributions will undoubtedly influence the future of additive manufacturing.