Company Filing History:
Years Active: 1986
Title: Joseph P Hammond - Innovator in Metal and Ceramic Bonding
Introduction
Joseph P Hammond, an inventive mind hailing from Knoxville, TN, has made significant strides in the field of materials science. He holds a patent for a novel process that efficiently bonds metals to ceramics, promising advancements in various manufacturing applications. This innovative process not only enhances the strength of those bonds but also operates at lower temperatures, making it more accessible for industrial use.
Latest Patents
Hammond's key patent, titled "Process for Forming Unusually Strong Joints Between Metals and Ceramics," presents a breakthrough method for joining metals, specifically nodular cast iron, to partially stabilized zirconia. The process allows for these materials to be joined using low brazing temperatures, specifically below 750°C. The innovation lies in the coating of ceramic with an active metal like titanium, which enables the formation of an intermetallic bond with a low melting point brazing alloy such as 60Ag-30Cu-10Sn. This technique provides a robust solution for industries requiring strong and durable joints between dissimilar materials.
Career Highlights
Hammond's extensive work with the United States Government showcases his dedication to advancing materials technology. His singular but impactful patent stands as a testament to his expertise in metallurgy and ceramics, positioning him as a notable inventor in his field.
Collaborations
Throughout his career, Joseph P Hammond has collaborated with esteemed colleagues such as Stan A David and John J Woodhouse. Their partnership has played a vital role in refining and developing processes that enhance the strength and versatility of metal and ceramic bonding techniques.
Conclusion
Joseph P Hammond's innovative process for forming strong joints between metals and ceramics exemplifies the ingenuity required in modern materials science. His contributions have the potential to revolutionize how industries approach the challenge of bonding dissimilar materials, ensuring that his impact will be felt for years to come.