Company Filing History:
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1 out of 1 Years Active: 2018
Title: The Innovative Contributions of Yuhui Huang in High-Temperature Structural Engineering
Introduction
Yuhui Huang, an accomplished inventor based in Shanghai, China, has made significant strides in the field of structural materials. With a focus on high-temperature applications, his work has contributed to better measurement and determination methods for fracture toughness, which is crucial in ensuring the integrity and safety of materials used in extreme conditions.
Latest Patents
Yuhui Huang holds a patent for the "Method of measurement and determination on fracture toughness of structural materials at high temperature." This invention discloses a comprehensive method that begins with assessing the ductility of a material through high-temperature uniaxial tensile tests. It includes designing and manufacturing a CT specimen, conducting a monotonic loading fracture test at elevated temperatures, and modifying load-displacement curves obtained during testing. His method addresses the challenges posed by high-temperature environments, particularly the difficulty of placing an extensometer inside a furnace, thus enhancing testing accuracy and reliability.
Career Highlights
Huang's career is marked by his work at notable institutions, including East China University of Science and Technology and Shanghai Electric Power Equipment Co., Ltd., as well as Shanghai Steam Turbine Factory. His contributions have not only advanced academic research but have also impacted practical applications in the industry.
Collaborations
Throughout his career, Yuhui Huang has collaborated with esteemed colleagues, including Fuzhen Xuan and Haitao Wang. These partnerships have facilitated a robust exchange of ideas and innovations, further advancing their collective understanding of material science.
Conclusion
Yuhui Huang's innovations in measuring fracture toughness at high temperatures illustrate the vital role that inventors play in addressing engineering challenges. His patented method not only enhances testing methodologies but also ensures the reliability of structural materials in demanding conditions. As he continues his work, the impact of his inventions will likely be felt across various industries that rely on advanced materials.