Company Filing History:
Years Active: 2015
Title: Guiling Zhou: Innovator in Cold-Rolling Technology
Introduction
Guiling Zhou is a prominent inventor based in Shanghai, China. She has made significant contributions to the field of materials engineering, particularly in the development of cold-rolling methods for high-silicon strip steel. Her innovative approach has the potential to enhance production efficiency and product quality in the steel industry.
Latest Patents
Guiling Zhou holds a patent for a cold-rolling method designed to prevent the fracture of high-silicon strip steel. This method is characterized by a silicon content of at least 2.3 wt %. At the beginning of the cold-rolling process, the inlet strip steel temperature is maintained above 45°C. During the process, an emulsion liquid is sputtered onto the strip steel, with a flow rate of 3500 L/min at the inlet and between 1500-4000 L/min at the outlet. This method ensures that the temperature of the strip steel remains above 45°C, which is crucial for effective lubrication and fracture prevention. The innovation aims to reduce the occurrence of fractures at the head and tail portions of the strip steel, thereby increasing the rate of finished products and overall production efficiency. Guiling Zhou has 1 patent to her name.
Career Highlights
Guiling Zhou is currently employed at Baoshan Iron & Steel Co., Ltd., a leading company in the steel manufacturing industry. Her work focuses on improving production techniques and enhancing the quality of steel products. Her expertise in cold-rolling technology has positioned her as a key figure in her field.
Collaborations
Guiling Zhou collaborates with notable colleagues, including Dejun Su and Jun Yang. These partnerships foster innovation and contribute to advancements in steel production techniques.
Conclusion
Guiling Zhou's contributions to cold-rolling technology exemplify her commitment to innovation in the steel industry. Her patented methods not only enhance production efficiency but also improve product quality. Her work continues to influence the field and inspire future advancements.