Company Filing History:
Years Active: 1999
Title: Richard Myers - Innovator in Electron-Beam Melt Refining
Introduction
Richard Myers is a notable inventor based in Albany, OR (US). He has made significant contributions to the field of materials science, particularly in the refining of niobium. His innovative approach has led to advancements in the electron-beam melt refining process, which is crucial for producing high-purity niobium.
Latest Patents
Richard Myers holds a patent for the "Electron-beam melt refining of ferroniobium." This patent describes a method for refining niobium (Nb) from ferroniobium (FeNb) using electron beam melt refining. The process involves determining the amount of impurities in FeNb that form suboxides with oxygen. Sufficient oxygen is added to form oxides with these impurities. The electron beam melt refining is conducted at high temperatures and low vacuum conditions, allowing for the removal of impurities as oxides from the liquid niobium, resulting in purified niobium. The oxygen is preferably added as an oxygen-containing compound, such as Nb₂O₅. The refined niobium can undergo additional electron beam melt refining cycles to achieve the desired purity.
Career Highlights
Richard Myers is associated with Teledyne Industries, Inc., where he applies his expertise in materials processing. His work has been instrumental in enhancing the efficiency and effectiveness of niobium refining techniques. His innovative methods have contributed to the advancement of materials used in various high-tech applications.
Collaborations
Some of Richard's coworkers include Richard S. Puopolo and John R. Peterson. Their collaborative efforts have fostered a productive environment for innovation and research within the company.
Conclusion
Richard Myers is a distinguished inventor whose work in electron-beam melt refining has significantly impacted the field of materials science. His contributions continue to influence the production of high-purity niobium, showcasing the importance of innovation in advancing technology.