ENGLISH
The LMFS is an important research unit for technological innovation activities at the Institute of Mechanics. Fluid-solid coupling occurs extensively in both natural phenomena and engineering systems. The mechanics of fluid-solid coupling primarily investigates the interaction laws between fluids and solids. It is an interdisciplinary field that bridges various branches of mechanics, including fluid mechanics, solid mechanics, and other major disciplinary areas.
The laboratory adheres to Hsue-Shen Tsien’s concept of “Engineering Science”. It closely integrates with the significant needs of various application areas, such as marine engineering, environmental engineering, and transportation engineering in China. Drawing upon the interdisciplinary integration of different branches of mechanics, the laboratory focuses on developing fundamental theories of fluid-solid coupling system mechanics. It also emphasizes the establishment of distinctive and comprehensive experimental platforms and numerical simulation techniques. By leading the development of relevant engineering technologies, the laboratory aims to promote the advancement of research ideas and methodologies in the field of mechanics.
The LMFS focuses on four key areas: (1) the interaction between fluids and engineering structures, (2) the interaction between fluids and soil materials, (3) environmental flow and multi-process coupling, and (4) the interaction between oil, gas, water, and sediments. Over the years, the LMFS has significantly contributed to marine oil and gas production, transportation, separation technologies, advanced waterborne vehicles, watershed water environment and regional sedimentation, landslide monitoring, and aerodynamic effects on high-speed trains. It has also formed a highly cohesive and collaborative research team of high caliber. Meanwhile, relying on independent innovation, we have developed supporting experimental apparatus and built large-scale numerical simulation platforms and software.
The laboratory is dedicated to promoting new research concepts of system mechanics and providing novel analytical tools, transformative technologies, and comprehensive solutions for major engineering and technical challenges. We aim to make fundamental, strategic, and forward-looking contributions to national security, economy, and social development.
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