Day -4 : GIAN Program at NIT Jalandhar. скачать в хорошем качестве

Day -4 : GIAN Program at NIT Jalandhar.

GIAN PROGRAM NIT JALANDHAR Course Instructor Prof Chong du Cho Department of Mechanical Engineering Inha University, Incheon, South Korea Chong du Cho is professor of mechanical engineering at Inha University, South Korea. His career is covered more than 30 years of research (from KAIST, Republic of Korea (1983-85), a Research Centre in Hyundai Group, Korea (1985-88), University of Michigan (1988- 91), and Inha University (1992-present). His laboratory monitors the most recent research trends in industrial technologies. As of 2021, he guided more than 148 advanced researchers with 39 masters and doctoral degrees working in various technical areas. His lab has published more than 386 peer-reviewed journals and proceedings. In addition, his leading R&D has proved its achievement by receiving many awards from the minister of commerce of the Korean government and leading industries and academic societies such as KSME and KSAE. His research area is vast due to his research focusing on developing advanced goals, including many fields, especially mechanics, automotive engineering, robotics, and biomedical appliances. Mostly those are fused technologies focused on driving high-impact growth to identify and initiate new opportunities based on novel capabilities. He also serves as a chief editor, editorial board member, and reviewer in many domestic and international journals. He is author of 257 articles, 124 conference papers, 3 book chapters, with 3258 citations. Course Overview The course module " Modern Composite Materials, Manufacturing, and Applications: New Generations" immerses participants in the dynamic realm of advanced composites. It explores the unique properties of composite materials—such as their high strength-to-weight ratio and tailored mechanical characteristics—critical for applications in aerospace, automotive, renewable energy, and biomedicine. A central focus of the module is on advanced manufacturing techniques that have revolutionized the production of composites. Methods like automated fibre placement (AFP), resin infusion, and additive manufacturing (3D printing) not only enhance efficiency but also enable complex geometries and structures previously unattainable with traditional materials. The module highlights cutting-edge applications where composites are driving innovation. In aerospace, they replace metals to reduce weight and improve fuel efficiency. Automotive industries utilize composites for light weighting and performance enhancement. Renewable energy sectors benefit from composites in wind turbines and solar panels, enhancing efficiency and sustainability. Biomedical applications include prosthetics and implants, leveraging composites' biocompatibility and customizable properties. By equipping students with a deep understanding of composite materials and their applications, the module aims to inspire innovation in engineering design optimization. It encourages participants to explore new possibilities in composite technology, preparing them to meet current challenges and seize future opportunities in diverse industries.