Photographed by: Feng Jian
Translated by: Han Jie
Edited by: D.Parker
Date: Dec.4th, 2017
Recently, the implementation plans for the key state research and development projects led by HIT, "Key Technologies for Preparation of Novel Fluorosilicone Materials "and " Key Technology for Preparation of New Special Ceramics Materials" were approved. Soon we will see the official launching of the projects and enter into the implementation phase.
"The key technology of new fluorosilicone material preparation" has a total project costs total of 47.08 million yuan. The implementation period is 4 years. The project is led by HIT in cooperation with 8 research groups. It combines production, study and research from Zhejiang Juhua Co., Ltd., Juhua Group Corperation Technology Center, Chuanhua Zhilian Co., Ltd., Hangzhou Normal University, Zhejiang University, Shaanxi University of Science and Technology and Shandong Institute of Shipbuilding. The project follows the development model of full chain integrated design and combines basic and applied research. Based on the outstanding achievements made by the project team, accumulated through many years of research and development in the field of fluorosilicone materials, the project’s aim is to assist in the development of China's high-performance and high-valued Silicon materials. Major scientific issues and key technologies will study the new structure of fluorosilicone monomers, precise control of synthetic methods and modified polymer scale production and equipment technology. The goal is to improve China's basic fluorine silicon material industry to meet the innovation and development needs for high-end manufacturing and strategic emerging industries. In the future China's fluorine-silicon new material system preparation and application of technology will become a leader at an international advanced level.
"The key technology of new special ceramic material preparation" has a totoal project cost of 31.29 million yuan. It’s implementation period is 42 months. The project is led by HIT in cooperation with 19 research groups including Tsinghua University, Shandong Industrial Ceramics Research and Design Institute Co., Ltd., Beijing Sinoma Imitation Crystal Institute Co., Ltd., Hunan University, Shanghai Institute of Ceramics of the Chinese Academy of Sciences, Beihang University, the China Building Materials Science and Technology Research Institute, the Institute of Physics and Chemistry, the Chinese Academy of Sciences, the Institute of Process Engineering of the Chinese Academy of Sciences, Zhejiang University, Tianjin University, the Institute of Metal Engineering of Chinese Academy of Sciences, and Xi'an Jiaotong University. The project focuses on responding to the urgent need for energy saving, low-carbon, environmentally friendly, high-end equipment manufacturing. It also emphasizes the upgrading and replacement of new energy vehicles for the electronic information industry in China's building materials, chemical and metallurgy industries. Other special ceramic materials and components with high performance and complex shapes reveal the material structure and performance evolution of special ceramics. The establishment of reliability evaluation criteria and a life prediction model will be a breakthrough in the key technologies of high-performance complex shape precision parts. It will provide low-cost, green rapid prototyping and overcome technological difficulties of multi-functional ceramic fiber composite membranes, lightweight porous ceramics with high temperature resistance and corrosion-resistant and ceramic substrate of high thermal conductivity. In doing so it will enhance China's research and development of advanced ceramic materials and increase the core competitiveness for national major projects providing support for strategic and new industries.
Professor Huang Yudong, the project leader for the “key technology of new fluorosilicone material preparation” and Professor Jia Dechang, the project leader for the “key technologies for preparation of new special ceramic materials” presented the implementation plan to the experts group. Leaders from each sub-project discussed the project’s implementation process, research progress and results, assessment indicators, organizational management, financial arrangements and other aspects of the projects.The experts group affirmed the research’s significance and the maneuverability of the two projects. They foresee the feasibility of the projects’ implementation plans as high. The technical route is advanced, the division of tasks is clear, the research progress and the time schedule are reasonable. The project implementation plan demonstration was unanimously approved. They offered constructive guidance on follow-up work for the implementation as well as for the research results.
More than 60 people from the National Key Research and Development Program of China, the key basic materials specialist group, leaders from the Ministry of Science and Technology High-tech Center, leaders from HIT’s science and engineering departments, as well as key members from the project (task) unit attended the meeting.
The Meeting Site
