Keynote Speakers

Prof. Yao Li

Harbin Institute of Technology

research experience

Yao Li has been a Professor of Materials Science in Harbin Institute of Technology (HIT) since 2005 and leads the laboratory of Functional Composite Materials in Center for Composite Materials. His research interests include fabrication and engineering nanostructured inorganic materials and polymers with well-defined microstructure and multiple length scales, and their applications for energy storage, and electrochromism. He is the author or co-author of over 200 papers, 100 patents, and 3 books in the fields of materials science and processing. He was selected as “The Yangtze River scholar Professor” by Ministry of Education, New Century Excellent Talents program” and “Distinguished Young Scholars for Heilongjiang Province” and “Youth leader in Science and Technology Innovation” by Ministry of Science and Technology. He was awarded “Science and Technology Award for the Youth of China”, “National Award of the outstanding Scientific and Technological Workers” and “the first Prize of Natural Science of Heilongjiang Province”. He is the council member of Chinese Materials Research Society and Functional Materials Society of China.

Speech Title:

Intelligent camouflage Technology in visible / Infrared Band

Abstract: 

With the renewal and improvement of all kinds of space-based and ground-based detection technology and equipment, and the rapid development of space-earth integrated information network technology, missile launch vehicles, armored vehicles, command vehicles and other ground weapons and equipment systems are faced with serious reconnaissance and attack threats in the whole operational process of deployment before the war, entering combat positions, carrying out combat missions, and system withdrawal. Traditional camouflage materials are difficult to meet the cross-regional, all-season and multi-time stealth needs of ground weapon systems. Adaptive camouflage technology is a technology that can quickly change the target color and infrared radiation characteristics in response to environmental changes, thus highly integrated with the optoelectronic features of the background. This report focuses on the principle and research progress of organic electrochromic photothermal control technology, inorganic electrochromic photothermal control technology and VO2 thermochromic photothermal control technology. Combined with different application scenarios, this report describes the role of intelligent photothermal control technology in military camouflage and other national defense fields.

Prof. Xiaopeng Gu

Xidian University

Prof.Youlin Gu

National University of Defense Technology

research experience

Youlin, Gu. Professor, National University of Defense Technology, master supervisor, visiting scholar of University of Maryland, USA. Engaged in the research of matting materials for a long time, focus on the electromagnetic attenuation mechanism and test technology of biological extinction materials, improve the extinction material wide band and safety and environmental protection characteristics. Preside over a number of projects, such as general projects of national Natural Science Foundation of China, key projects of military level and natural Science Foundation of Anhui Province. Won first prize of science and technology of Anhui Province once and second prize of military science and technology progress twice. Publised more than 70 academic papers, and more than 40 have been indexed by SCI or EI. More than 20 authorized invention patents. Published 1 monograph, 3 textbooks and translations. Young editorial board member of Infrared and Laser Engineering.

Speech Title:

Research progress on artificially prepared infrared matting materials

Abstract: As an important means to weaken the performance of infrared imaging equipments or systems, artificially prepared infrared extinction materials have become the research object of many countries. The research status of artificially prepared infrared extinction materials is introduced from metal materials, expanded graphite, nano-materials, water-based foam, biomaterials and composite materials. The particle aggregation model used in the calculation of infrared extinction materials and several typical calculation methods of extinction performance are described. The existing methods for evaluating the performance of infrared matting materials was reviewed. The development trend of artificial preparation of infrared matting materials in the future was Analyzed.

Prof.Lixin Xu

University of Science and Technology of China