Company Filing History:
Years Active: 1995-2002
Title: Peter Jones: Innovator in Powder Metallurgy
Introduction
Peter Jones is a prolific inventor based in Toronto, Canada, known for his significant contributions to the field of powder metallurgy. With an impressive portfolio of 18 patents, Peter has demonstrated a commitment to innovation and excellence in engineering.
Latest Patents
Among his latest inventions, Peter has developed a groundbreaking method known as the "Press and Sinter Process for High Density Components." This process involves blending graphite, silicon carbide, and lubricant with pre-alloyed iron base powder to form a sintered article of powder metal. The method includes pressing the blended mixture into a shaped article, sintering it in a reduced atmosphere, and forced cooling to achieve the desired specifications.
Another noteworthy invention is the "High Density Forming Process with Ferro Alloy and Prealloy." This invention focuses on forming sintered compacts of low alloy steel compositions to high density at ambient temperature. The method described allows for the sintered powder metal articles to have a compaction length approximately 3 to 30% shorter than the original length, achieving increased density after compaction.
Career Highlights
Peter's career includes influential roles at renowned companies such as Stackpole Limited and Formflo Limited. His work in these organizations has propelled advancements in material science and engineering applications, showcasing his skills as a leader in innovation.
Collaborations
Throughout his career, Peter has collaborated with talented individuals like Rohith Shivanath and Roger Lawcock. These partnerships have fostered a creative environment that has led to the successful development of various patented technologies.
Conclusion
Peter Jones stands out as a distinguished inventor whose contributions to powder metallurgy are paving the way for future innovations. His dedication to research and development is evident in his numerous patents, which continue to advance the capabilities of materials used in various industries. As technology evolves, Peter's work will undoubtedly play a critical role in shaping the future of high-density metal components.