080500 Materials Science and Engineering Research Direction: 01 Alloying and alloying phases 02 Thermodynamics and kinetics of phase transformation 03 Mechanical properties and size effects of metals 04 Physical Chemistry of Cement and Concrete 05 Plastic deformation, recrystallization and texture control of metals 06 Electron Microscopy for Materials 07 Magnesium Alloys 08 Nanomaterials 09 New Aluminum Alloys and Processes 10 Biomaterials 11 Powder Metallurgy Materials 12 New High Performance Steel Materials 13 Advanced Forming Technology for Light Alloys 14 Advanced Ceramic Materials 15 High Performance Composites and Preparation Technology 16 Deformation and Microstructure of Refractory Metals 17 Functional Materials 18 Melting and Casting Technology and Equipment for Light Alloys 19 High Performance Concrete 20 New Cementitious Materials 21 Resourceization of Solid Waste Building Materials 22 Durability Analysis and Evaluation of Building Materials 23 Composite Materials and Processing 24 Forming Process Optimization and Mold Design for Auto Covering Parts 25 Energy Materials 26 Functional Materials for Construction 27 Surface Technology and Engineering for Mold Materials 28 Surface Engineering and Joining for Metals 29 Mold CAD/CAE/CAM 30 Numerical Simulation of Welding Process 31 Welding of Light Alloys 32 Welding Structural Integrity and Safety Evaluation 33 Superconducting Materials 37 Advanced Structural Nuclear Materials 38 Alloy Design and Computational Materials Science 39 Materials Computational Simulation and Data Mining 40 Titanium Alloy Materials 41 Forming Technology for Polymer Materials 42 In-situ Study of Phase Transformation and Deformation of Metals 43 High Performance Non-Homogeneous Structural Materials and Preparation Techniques 44 Metal Corrosion and Protection 45 Additive Manufacturing Process and Equipment 46 Lightweight and High Entropy Alloys 47 High-throughput Integrated Calculation of Magnesium Alloys 48 Flame Retardant Polymer 49 Building Safety and Protection Materials |