Company Filing History:
Years Active: 2021-2022
Title: Weigang Li: Innovator in Microalloyed Steel Technology
Introduction
Weigang Li is a prominent inventor based in Hubei, China. He has made significant contributions to the field of materials science, particularly in the development of methods for predicting the mechanical properties of microalloyed steel. With a total of 2 patents to his name, his work has implications for both product design and cost reduction in steel manufacturing.
Latest Patents
Li's latest patents include a "Microalloyed Steel Mechanical Property Prediction Method Based on Globally Additive Model." This invention outlines a systematic approach to predicting the mechanical properties of microalloyed steel by determining influencing factors, calculating carbonitride precipitation, and expressing the prediction model in an additive form. The method enhances prediction precision and broadens the adaptation range, ultimately reducing the need for extensive physical testing and shortening the product development cycle.
Another notable patent is the "Classification Optimization Method for Steel Grade Family of Steel Rolling Model." This method involves calculating deformation rates and resistance, optimizing the classification of steel grades using a new algorithm called line clustering, and improving the precision of steel grade family divisions. This innovation is crucial for enhancing the efficiency of hot rolling processes.
Career Highlights
Weigang Li is affiliated with Wuhan University, where he continues to advance research in materials science. His work not only contributes to academic knowledge but also has practical applications in the steel industry.
Collaborations
Li collaborates with esteemed colleagues such as Ken Deng and Wei Yang, further enriching his research endeavors and expanding the impact of his innovations.
Conclusion
Weigang Li's contributions to microalloyed steel technology exemplify the intersection of innovation and practical application. His patents reflect a commitment to enhancing the efficiency and precision of steel manufacturing processes.