IntroductionYang Weimin, professor and doctoral supervisor of Beijing University of Chemical Technology, ‘Changjiang Scholar’ distinguished professor, also serves as a member of the Teaching Guidance Committee for Mechanical Engineering in Higher Educational Institutions, director of the expert committee of the China Plastics Processing Industry Association, Co-Editor-in-Chief of Clean Energy Science and Technology, and Deputy Editor-in-Chief of the Journal of Beijing University of Chemical Technology, and editorial board member of several academic journals, such as China Plastics, Plastics, Rubber Industry, Rubber and Plastic Technology and Equipment. He has long been engaged in polymer materials processing and moulding equipment and clean energy science and technology research. Over the past 30 years, he has led the team to undertake more than 60 projects, including the National Natural Science Foundation of China, the National Science and Technology Support Programme, the National Key Research and Development Programme, as well as industry-university-research cooperation projects, etc. He has been authorised more than 350 invention patents, published more than 600 academic papers and books in English and Chinese, such as Principles and Equipment of Plastic Precision Injection Moulding and Advances in Polymer Processing. As the first completer, he has been awarded the second prize of the State Technological Innovation Award and the State Science and Technology Advancement Award. He has also received the second prize of the National Teaching Achievement Award, provincial and ministerial level science and technology awards, and has been honored with titles such as Advanced Worker of Beijing and Outstanding Teacher of the Nation. EducationWork ExperienceSocial PositionSocial ActivitiesResearch1.Green technology for manufacturing polymer nanofibers with melt differential electrospinning 2. Manufacturing of high-performance carbon fiber materials 3. Plastic precision injection molding 4. Advanced manufacturing of high-performance tire direct pressure vulcanization TeachingLecture 1: Introduction to Mechanical Engineering. This course is for the sophomore students, the number of students is 500 per year, and the number of course hours is 12 hours per year. Lecture 2: Advanced Manufacturing Symposium of Polymer Materials. This course is for the undergraduate students in interdisciplinary classes (including the students of all grades and all professions), the number of students is 25 per year, and the number of course hours is 32 hours per year. Lecture 3: Creative thinking and expression. This course is for the first and second grade students, the number of students is 200 per year, and the number of course hours is 32 hours per year. Lecture 4: Engineering fluid flow and heat transfer. This course is for the third-year grade students, the number of students is 80 per year, and the number of course hours is 20 hours per year. Lecture 5: Development of Advanced Manufacturing Technology. This course is for the excellent undergraduate students in the experimental class. The number of students is 30 per year, and class number is 16 hours per year. PostgraduatesFunding1. Key technologies and industrialization of reusable protective masks, National Key R&D Program of China—“The COVID-19 Emergency Response Project”, 2020. 2. Advanced preparation technology and application demonstration of high performance synthetic resin, “13th Five-Year Plan”- National Key R&D Program of China, 2017-2020. 3. Advanced manufacturing base for high-end equipment and medical devices, 111 Plan of the Ministry of Education- Programme of Introducing Talents of Discipline to Universities,2017-2022. Vertical ProjectHorizontal ProjectPublications[1] Hu H , Li H , Zhang Z , Yang W, et al. Laser-Triggered High Graphitization of Mo2C@C: High Rate Performance and Excellent Cycling Stability as Anode of Lithium Ion Batteries[J]. ACS Appl. Mater. Interfaces, 2023, 15, 39, 45725–45731. [2] Li J , Wang H , Kong X ,Yang W, et al. Additively Manufactured Bionic Corrugated Lightweight Honeycomb Structures with Controlled Deformation Load-Bearing Properties[J]. Materials, 2024, 17(10). [3] Wang Y, Tan J, Yang W, et al. The preparation of polypropylene microfiber yarns via vortex airflow‐assisted melt differential electrospinning[J].Journal of Applied Polymer Science, 2024, 141(20). [4] Zhu W , Zuo X , Ding Y , Yang W,et al. Experimental comparison of the photothermal conversion performance of coal and plant soot nanofluids for direct absorption solar collectors[J]. Solar Energy, 2023, 264. [5] Zhang Z , Cheng L , Kroll P , Yang W, et al. Cost-effective carbonized waste corrugated boards with surface decorated by SiC@C nanofibers and nanospheres for electromagnetic interference shielding[J].Applied Surface Science, 2022, 590:153151. [6] Zhang Z , Cheng L , Sheng T , Yang W, et al.SiC Nanofiber-Coated Carbon/Carbon Composite for Electromagnetic Interference Shielding[J].ACS Applied Nano Materials, 2022, 5(1), 195-204. Awards1. The second prize of the State Technological Innovation Award, Green and efficient manufacturing technology and application of polymer melt nanofibers, 2024. 2. The First Grade of Science and Technology Invention Award, Research, development and application of key technologies for green manufacturing of polymer melt differential electrospinning nanofibers, 2018. 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