Company Filing History:
Years Active: 2020
Title: Innovations of Haiying Li in Graphene Technology
Introduction
Haiying Li is an accomplished inventor based in Zhaoyuan, China. She has made significant contributions to the field of materials science, particularly in the development of advanced rubber compounds. Her innovative work focuses on enhancing the thermal conductivity of materials through the use of graphene.
Latest Patents
One of Haiying Li's notable patents is titled "Process for manufacturing an ultra-high thermally conductive graphene curing bladder." This patent outlines a comprehensive process that includes several key steps. First, an ultra-high thermally conductive graphene is pre-mixed with rubber to create a pre-dispersed graphene master batch. This master batch undergoes a granulation or cutting process to yield a granular solid or sheet solid. The solid is then mixed in a rubber mixing mill to produce an ultra-high thermally conductive graphene rubber compound. The next steps involve extruding this compound into a rubber strip of a desired size, followed by weighing and processing the rubber strip to create a rubber blank. Finally, the rubber blank is placed into a pressing type curing bladder mold, where it is pressurized, heated, and cured to produce the finished product.
Career Highlights
Haiying Li is currently employed at Shandong Linglong Tyre Co., Ltd., where she continues to innovate in the field of rubber technology. Her work has not only advanced the capabilities of rubber materials but has also contributed to the broader application of graphene in various industries.
Collaborations
Throughout her career, Haiying Li has collaborated with several talented individuals, including Feng Wang and Haitao Sui. These collaborations have fostered a creative environment that encourages the exchange of ideas and the development of groundbreaking technologies.
Conclusion
Haiying Li's contributions to the field of graphene technology exemplify the potential of innovative materials in enhancing product performance. Her patent on the manufacturing process of ultra-high thermally conductive graphene curing bladders showcases her expertise and commitment to advancing material science.