Company Filing History:
Years Active: 2001
Title: Innovations of Carlos Henrique Gaspar Dos Santos
Introduction
Carlos Henrique Gaspar Dos Santos is a notable inventor based in São Paulo, Brazil. He has made significant contributions to the field of materials engineering, particularly in the development of bimetallic strips for sliding bearings. His innovative approach combines different materials to enhance performance and durability in mechanical applications.
Latest Patents
Carlos holds a patent for a bimetallic strip designed for sliding bearings. This invention features a sliding strip made from an aluminum alloy that is adhered to a steel supporting strip. The composition of the sliding strip includes 3 to 30% tin, 1 to 6% silicon, with the remainder being aluminum and impurities. The sliding strip is engineered to have at least 95% of silicon hard particles smaller than 3.5 microns, and an average aluminum grain size of about 6 microns. The manufacturing process involves roll casting the alloy, attaching the sliding strip to the steel supporting strip, and heat treating the bimetallic strip between 200°C and 380°C to achieve metallurgical bonding. Further processing includes solubilizing intermetallic compounds and precipitation treatment at specific temperatures.
Career Highlights
Carlos is currently employed at Metal Leve S/A Indústria e Comércio, where he applies his expertise in materials science to develop innovative solutions. His work has been instrumental in advancing the technology of sliding bearings, which are critical components in various mechanical systems.
Collaborations
Throughout his career, Carlos has collaborated with talented professionals such as Joaquim De Oliveira Ramos Júnior and Denys Da Cuhna Flores. These collaborations have fostered a creative environment that encourages innovation and the sharing of ideas.
Conclusion
Carlos Henrique Gaspar Dos Santos is a distinguished inventor whose work in bimetallic strips has made a significant impact in the field of materials engineering. His innovative patent demonstrates a commitment to enhancing mechanical performance through advanced material compositions and manufacturing techniques.