Company Filing History:
Years Active: 2021
Title: Wenbin Gao - Innovator in Artificial Core Technology
Introduction
Wenbin Gao is a prominent inventor based in Beijing, China. He has made significant contributions to the field of artificial cores, particularly in the preparation methods of artificial sandstone and conglomerate cores. With a total of 2 patents, his work focuses on enhancing the properties and applications of these materials.
Latest Patents
Wenbin Gao's latest patents include innovative methods for creating artificial sandstone and conglomerate cores. The first patent details a preparation method based on lithology and pore structure control. This method involves mixing and molding sand particles with an inorganic cementing agent, followed by the addition of a curing agent for solidification. The composition of the sand particles is tailored according to the lithology and pore structure, allowing for precise control over the final product.
The second patent focuses on the preparation of artificial sandstone and conglomerate cores based on lithology and permeability control. Similar to the first, this method also involves mixing sand particles with a cementing agent and a curing agent. However, it emphasizes the properties of the artificial core, particularly its lithology and permeability, to regulate the composition of the sand particles effectively.
Career Highlights
Wenbin Gao is affiliated with the China University of Petroleum, where he conducts research and development in artificial core technology. His work has garnered attention for its practical applications in various industries, including petroleum engineering and materials science.
Collaborations
Wenbin Gao collaborates with notable colleagues such as Yiqiang Li and Zheyu Liu. Their combined expertise contributes to advancing research in artificial core technologies.
Conclusion
Wenbin Gao's innovative work in artificial core technology showcases his commitment to enhancing material properties through precise preparation methods. His contributions are vital to the ongoing development of artificial cores in various applications.