Company Filing History:
Years Active: 2020
Title: The Innovations of John F Butler, Jr. in Aluminum Alloys
Introduction
John F Butler, Jr., an innovative inventor based in Lititz, PA, has made significant contributions in the field of materials science, particularly with his work on aluminum alloys. With a focus on enhancing the properties of these materials, Butler's patented work has implications for various industries, including construction, automotive, and aerospace.
Latest Patents
Butler holds a notable patent for the formulation of new 6xxx aluminum alloys. This patent outlines a unique combination of properties that enhance the performance of aluminum in various applications. The key features of this innovation include the composition of the alloy, which consists of 1.00-1.45 wt. % silicon (Si), 0.32-0.51 wt. % magnesium (Mg), and controlled levels of other elements such as copper, iron, manganese, chromium, titanium, and zinc, all within specified limits to minimize impurities. This careful balancing of components leads to improved performance and durability of the aluminum alloys.
Career Highlights
Working at Arconic Corporation, Butler has played a crucial role in advancing aluminum technology. His work aligns with the company's commitment to innovation in materials and engineering solutions. Over the years, Butler has demonstrated a strong dedication to research and development, which has led to concrete advancements in the field of aluminum alloys.
Collaborations
Throughout his career, Butler has collaborated with esteemed colleagues, including John Newman and Timothy A Hosch. These collaborative efforts have likely fostered a rich environment of innovation, enabling knowledge exchange and collective problem-solving in the quest to develop superior aluminum materials.
Conclusion
John F Butler, Jr. is a prominent figure in the advancement of aluminum alloys, with a patented innovation that showcases his expertise and commitment to improving material properties. His contributions at Arconic Corporation, coupled with collaborative efforts with colleagues, reflect a robust dedication to innovation in materials science. As industries continue to evolve, Butler's work paves the way for enhanced applications of aluminum alloys in various fields.