Development of Novel High- and Medium-Manganese Steels for Cryogenic Applications - Strengthening light-weight Fe-Mn-Al-(N,C) alloys for cryogenic applications
- Alloy design of medium-manganese steels with excellent low-temperature toughness
- High-temperature hydrogen attack and reheating cracking of heat-resistant steels
Hydrogen Embrittlement and Applications of Metallic Materials
- Crygenic and hydrogen embrittlement of high-manganese steels for liquid hydrogen storage - High-temperature hydrogen attack and reheating cracking of heat-resistant steels - Materials selection and criterion for hybrid hydrogen ironmaking - Hydrogen embrittlement of metallic materials subjected to different hydrogen charging methods
Strain-Based Design of High-strength API Linepipe Steels & Earthquake Resisting
Reinforced Steel Bars
- Thermo-mechanical control process (TMCP) and microstructural evolution - Optimum microstructure to achieve excellent deformability of low yield ratio and high uniform elongation - Microstructure-based prediction of tensile properties using multiple linear regression analysis
Engineering Strength and Toughness into Advanced Metallic Materials
- Development of nanostructured bainite steels for high-hardness armors (HHA) - Hydrogen embrittlement of Ti-6Al-4V alloys for military and aerospace applications - Dynamic deformation and fracture behaviors of high specific-strength steels
Computational Materials Science and Engineering & Materials Characterization
