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.
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.
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.
