Company Filing History:
Years Active: 1997
Title: The Innovations of Richard G Grant
Introduction
Richard G Grant is an accomplished inventor based in Blacksburg, Virginia. He is known for his significant contributions to the field of materials science, particularly in the development of calibration standards for galvanneal and galvanized coatings. His work has implications for various industries that rely on precise measurements of coating thickness and quality.
Latest Patents
Richard G Grant holds a patent for "Pure iron-zinc intermetallic galvanneal calibration standards." This innovative patent describes a method for producing high purity iron-zinc intermetallic calibration standards using a slow diffusion technique. The alloys produced are pure to greater than 99.5 wt % and are homogenous to greater than 98%. These calibration standards are essential for calibrating instrumentation used to monitor and measure galvanneal and galvanized coatings. The alloy calibration standards for each of the iron-zinc phases allow for the determination of instrumentation correction factors for accurate iron-zinc coating analysis.
Career Highlights
Richard G Grant is affiliated with Old Dominion University, where he contributes to research and development in materials science. His expertise in creating high-purity alloys has positioned him as a valuable asset in the academic and industrial communities. His work not only enhances the understanding of galvanneal coatings but also improves the accuracy of measurement techniques used in various applications.
Collaborations
Richard has collaborated with notable colleagues, including Desmond C Cook and Patricia S Cook. These collaborations have fostered a productive research environment, leading to advancements in the field of materials science.
Conclusion
Richard G Grant's innovative work in developing calibration standards for galvanneal coatings exemplifies the importance of precision in materials science. His contributions continue to impact the industry positively, ensuring that measurement techniques remain accurate and reliable.