Company Filing History:
Years Active: 2019
Title: Inventor Ronald S. Mace: A Pioneer in Powder Metallurgy
Introduction
Ronald S. Mace, located in Newnan, GA, is an accomplished inventor known for his innovative work in the field of powder metallurgy. With a patent to his name, Mace is contributing significantly to advancing manufacturing techniques and material properties.
Latest Patents
Mace's patent, titled "Powder Metallurgy Method for Making Components," outlines a novel approach that includes several critical steps. The method involves forming a metallic powder into a specific shape, followed by thermo-mechanical processing to create an article with a polycrystalline microstructure. The process emphasizes heat treatment to enhance grain size control and distribution, thereby reducing abnormal grain growth. This meticulous selection of metallic powder particle size aims to achieve a predefined target grain size, presenting a refined methodology in the field of materials science.
Career Highlights
Ronald S. Mace is currently affiliated with the United Technologies Corporation, where his expertise in metallurgy and material sciences has played a pivotal role in innovation. His contributions to the field have solidified his reputation as a skilled inventor, recognized for his thoughtful and effective solutions to complex engineering problems.
Collaborations
Throughout his career, Mace has collaborated with esteemed colleagues such as Agnieszka M. Wusatowska-Sarnek and Harpreet Wasan. These partnerships have fostered an environment of shared knowledge and innovation within the realm of powder metallurgy, leading to advancements that benefit both the industry and academia.
Conclusion
Ronald S. Mace stands out as an influential figure in powder metallurgy with his inventive approach and collaborative spirit. His patent not only reflects his dedication to innovation but also sets a benchmark for future advancements in the field. As he continues to work with leading experts at United Technologies Corporation, Mace is likely to inspire new generations of inventors and researchers in material sciences.