Company Filing History:
2 out of 832,912 Years Active: 1991-1993
Title: Innovations by James C Kenney
Introduction
James C Kenney is an accomplished inventor based in Indianapolis, IN (US). He holds 2 patents that showcase his expertise in clad-coating technologies. His work primarily focuses on enhancing the properties of metal and ceramic particles for various applications, particularly in microelectronics and metal matrix composites.
Latest Patents
Kenney's latest patents include a method for clad-coating ceramic particles and a method for clad-coating refractory and transition metals and ceramics. These patents detail processes where metal and ceramic particles are coated with transition metals such as silver, gold, copper, nickel, iron, cobalt, and aluminum. The aim is to improve the performance of these coated particles in microelectronics and metal matrix composites. The patents describe the use of refractory metal precursor core particles, such as tungsten and molybdenum, which are created through advanced techniques like pressurizing and infiltrating molten copper into a porous tungsten skeleton. The resulting particles exhibit enhanced electrical and thermal expansion coefficient matching properties, making them suitable for microelectronic ceramic substrates.
Career Highlights
Throughout his career, Kenney has demonstrated a commitment to innovation in materials science. His patents reflect a deep understanding of the interactions between different materials and their applications in advanced technologies. His work has contributed significantly to the field, providing solutions that enhance the performance and reliability of electronic components.
Collaborations
Kenney has collaborated with notable professionals in his field, including Nathaniel R Quick. Their joint efforts have further advanced the research and development of clad-coating technologies.
Conclusion
James C Kenney's contributions to the field of materials science through his innovative patents highlight his role as a significant inventor. His work continues to influence advancements in microelectronics and composite materials.