Program Overview
The Mechanical Engineering discipline at the Shenzhen International Graduate School focuses on three key research areas: Intelligent Manufacturing & Precision Machining, Biomanufacturing & Medical Equipment, and Interface & Intelligent Systems.
Research in the area of Intelligent Manufacturing & Precision Machining includes intelligent manufacturing equipment and systems, ultrasonic machining technology and equipment, high- speed and high-efficiency cutting processes and equipment, in-situ detection of CNC machining accuracy, and performance analysis and optimization of manufacturing equipment.
The research in Biomanufacturing & Medical Equipment covers smart medical devices (particularly advanced ophthalmic instruments), intelligent ocular rings, magnetically controlled intraocular surgical robots, DNAinformation storage systems,and3D-printed microfluidic organ-on-a-chip technology.
Extreme applications of structural superlubricity include:
1) Research on structural superlubricity applications(novelMEMS/ NEMS devices basedon structuralsuperlubricity,micro-nanogenerator systems,next-generation storage technologies,precisionbearings/sliprings,etc.);
2) Fundamental scientific research on structural superlubricity(studies on the mechanical,electrical,thermal,and optical propertiesof van der Waals interfaces);
3) Preparation,transfer,and integration methods and experimentaltechniques for structural superlubricity materials andsurfaceinterfaces(includingsingle-crystal2Dmaterials,ultra-smooth surfaces,etc.),alongwiththe constructionofspecializedequipment;
4) Tensor and constitutive theoriescombinedwithunderlying artificialintelligence technologies;
5) Extreme hydrophobic science and technology leading todisruptiveproducts.
Program Features
The program emphasizes interdisciplinary research, aiming to achieve breakthroughs in both scientific exploration and engineering applications. The research is closely aligned with Shenzhen's 20+8 strategic industries, which include critical areas such as industrial machinery, aerospace processing equipment, high-end medical devices, and synthetic biology within biomanufacturing. The focus is on addressing key scientific and engineering challenges, particularly those that are essential for overcoming technological bottlenecks.
The structural superlubricity and its extreme applications span multiple disciplines, including mechanics, physics, chemistry, materials science, electronics, mechanical engineering, information technology, and medical science. Over the next five years, the program will concentrate on developing and creating revolutionary technologies and products that meet major national demands or have significant market potential. Research will focus on identifying and solving a series of original scientific issues related to these technologies and products.
Contact
Ms. Xu/Ms.Wen
Tel:+86-755-26036356/+86-755-26036058
E-mail: xu.mengling@sz.tsinghua.edu.cn/wen.jiamin@sz.tsinghua.edu.cn
