◆ Solid-State Transformation and Solidification
◆ Advanced Materials and Heat Treatment
◆ Multi-field Coupled Heat Treatment
◆ Microstructure and Properties
◆ Vacuum Heat Treatment and Surface Strengthening Technology
◆ Quenching and Distortion Control
◆ Heat Treatment Informatization and Intelligence
◆ Heat Treatment and Surface Engineering Equipment
◆ Heat Treatment of New Energy Vehicles Components
◆ Plasma Electrolysis and Discharge Deposition Technology
◆ New Technologies for Hard and Superhard Thin Films
◆ Anodizing, Electrodeposition, and Electroplating
◆ Functional Surfaces and Coatings
◆ High-temperature Thermal Protection Coating
◆ High-power Impulse Magnetron Sputtering, HiPIMS
◆ Semiconductor Material Heat Treatment and Surface Engineering
◆ Surface Integrity and Anti-fatigue Manufacturing
◆ Heat Treatment and Surface Engineering for Non-Ferrous Metals and their Alloys
◆ Heat Treatment and Surface Engineering of Key Parts
◆ High Energy Beam Surface Engineering and Additive Manufacturing
◆ Heat Treatment and Surface Engineering for Nuclear Power Plant Materials and Key Equipment
◆ High-performance Tool Coatings and their Applications
◆ Computational Simulation and Artificial Intelligence
◆ Characterization and Evaluation of Residual Stress
◆ Green Heat Treating / Low Carbon
◆ Heat Treatment Energy Efficiency and Management
◆ Advanced Technology for Functional Surface Modification
◆ Heat Treatment and Surface Engineering for Aerospace