Company Filing History:
Years Active: 1995
Title: Frank Maginnis: Innovator in Ingot Manufacturing
Introduction
Frank Maginnis is a notable inventor based in Moore, Oklahoma, recognized for his contributions to the field of materials science. He has developed a unique method for manufacturing ingots that exhibit exceptional heat, thermal shock, corrosion, and wear resistance. His innovative approach has the potential to significantly impact various industries that require durable materials.
Latest Patents
Maginnis holds a patent for a method of manufacturing ingots designed for use in creating objects with high resistance to heat and wear. The patent details a composition that includes approximately 17-80% TiB₂ powder, 0.0 to 4.0% Y₂O₃ powder, and the remainder being NiAl powder. The process involves thoroughly admixing these powders and placing the mixture into a mold, where it is subjected to a pressure of about 7000 psi and a temperature of approximately 1400°C for a duration of 20 to 140 minutes in an inert atmosphere. After cooling, the mold is removed, yielding an ingot ready for manufacturing applications. Additionally, the use of a ceramic filler material can enhance the physical characteristics of the finished ingot.
Career Highlights
Frank Maginnis is associated with Aspen Research Corporation, where he applies his expertise in materials science to advance innovative manufacturing techniques. His work has contributed to the development of high-performance materials that meet the demanding requirements of various applications.
Collaborations
Maginnis collaborates with his coworker, David B Maginnis, to further explore advancements in material manufacturing and to enhance the capabilities of their projects.
Conclusion
Frank Maginnis stands out as an inventor whose work in ingot manufacturing showcases the intersection of innovation and practical application. His patented method not only demonstrates his technical expertise but also highlights the importance of developing materials that can withstand extreme conditions.