Research Areas
High Entropy Alloys
Mechanical Insights: Correlating High Entropy Alloys' Behavior with Microstructure, Crystallographic Texture, and Elemental Distribution.
Next-Generation of HEA Design: FCC, BCC, and HCP-Based High Entropy Alloys design for Structural Advancements.
Thermodynamic Exploration: Thermal, Microstructure Stability and phase transformations in High Entropy Alloys.
Additive Manufacturing
Optimizing Heat Treatment and Surface Properties in Additively Manufactured Structural Materials for Aerospace, Automotive, and Nuclear Applications.
Understanding Solidification Science and Deformation Mechanics in Additively Manufactured Metallic Materials.
Exploring Phase Transformations Induced by Temperature and Deformation: Correlating with Crystallographic Texture.
Characterizing Interface and Grain Boundary Strength in Dissimilar Alloy Combinations.
Identifying Mechanical and Microstructural Properties in Extreme Environments.
Thermomechanical Processing
Industrial-Scale Forging: Processing Condition Development.
Optimizing Deformation Parameters for Enhanced Strength and Ductility in Metallic Materials.
Thermomechanical Processing: Microstructure, Texture, and Grain Boundary Fraction Optimization.
Exploring High-Temperature Deformation Properties in Metallic and Intermetallic Alloys.
Recycling of Metallic Materials
Optimizing Microstructure and Composition for Enhanced Mechanical and Physical Properties.
Processing and Texture Optimization of Recycled Materials for Critical Applications.
Innovative Alloy Design: Utilizing Metallurgical Waste and Critical Materials for Improved Performance.