Company Filing History:
Years Active: 2007
Title: The Innovations of Dave Snyder in Carbon/Carbon Composites
Introduction
Dave Snyder is an accomplished inventor based in Cuyahoga Falls, OH (US). He has made significant contributions to the field of materials science, particularly in the development of carbon/carbon composites. His innovative approach has led to advancements that improve the efficiency and effectiveness of composite manufacturing.
Latest Patents
Dave Snyder holds a patent for the "Manufacture of carbon/carbon composites by hot pressing." This patent describes a process where a mixture of carbon-containing fibers, such as mesophase or isotropic pitch fibers, is combined with a suitable matrix material, like milled pitch. The mixture is then compressed while being resistively heated, resulting in a carbonized composite material. This method allows for the creation of carbonized materials with a density of at least about 1.30 g/cm, significantly reducing the manufacturing time to less than ten minutes. This is a remarkable improvement over conventional processes, which typically take several days and yield lower density materials. The process also allows for the incorporation of treating components into the composite, achieving final densities of about 1.6–1.8 g/cm or higher with minimal infiltration cycles.
Career Highlights
Dave Snyder is currently associated with Ucar Carbon Company Inc., where he continues to innovate in the field of carbon composites. His work has not only advanced the technology but has also contributed to the overall understanding of composite materials in various applications.
Collaborations
Dave has collaborated with notable colleagues, including Dai Huang and Richard Thomas Lewis. Their combined expertise has fostered a productive environment for research and development in carbon composite technologies.
Conclusion
Dave Snyder's contributions to the field of carbon/carbon composites exemplify the impact of innovative thinking in materials science. His patented processes have revolutionized manufacturing techniques, leading to more efficient production and higher quality materials.