Company Filing History:
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3 out of 3 Years Active: 2021-2022
Title: Inventor Profile: Andres Fernando Rodriguez-Jasso
Introduction
Andres Fernando Rodriguez-Jasso is an accomplished inventor based in Garcia, Mexico, known for his contributions to the field of aluminum alloy compositions. With a portfolio of three patents, Rodriguez-Jasso focuses on developing materials with enhanced performance characteristics, particularly at elevated temperatures. His work demonstrates a commitment to innovation in materials science.
Latest Patents
Rodriguez-Jasso's latest patents revolve around aluminum alloy compositions exhibiting superior microstructural stability and strength at high temperatures. One notable patent focuses on compositions designed to maintain stability and resist hot tearing, outperforming conventional alloys. This disclosure includes extensive methodologies for the manufacturing and application of these advanced aluminum alloys, highlighting their significance in various industrial applications.
Career Highlights
Throughout his career, Rodriguez-Jasso has made notable strides in materials engineering. He has worked with esteemed organizations such as UT-Battelle, Inc. and FCA US LLC, where he has applied his expertise in developing innovative solutions for complex materials challenges. His work has had a meaningful impact on industries reliant on high-performance materials.
Collaborations
Rodriguez-Jasso has collaborated with several professionals in the field, including Amit Shyam and James A Haynes. Their collective knowledge and shared expertise have likely contributed to the advancements in the aluminum alloy compositions he has developed.
Conclusion
Andres Fernando Rodriguez-Jasso's commitment to innovation in aluminum alloys positions him as a significant figure in the field of materials science. His patents reflect a deep understanding of the material properties that are crucial for high-performance applications. As he continues to push the boundaries of what is possible in alloy development, the industry can anticipate further contributions that enhance the stability and efficiency of aluminum materials.