Theoretical and Experimental Applied Mechanics. My research interests are in the Mechanics Behavior of Materials, emphasizing the investigation of the behavior of modern engineered materials and the development of new techniques for mechanical characterization at highly localized micro, meso, and macro length scales. Experimental and Numerical Mechanics
Ongoing projects
Evaluate the Elastic Properties, Bi-Modulus effect and Damage Mechanism of Shale Materials
Characterization Fracture Mechanism of Glassy Polymer Subjected to Static and Dynamic loading conditions Using Full-field Measurement
Application of MFHJ Connection for reliable Solution of Torsional Hopkinson Bar
Mechanical Properties of Titanium-G5 Subjected to Low and High Loading Rate
Reduce the wear in bearings using polymer
Fracture and Damage mechanism
Exploiting Self-Healing in Lithium Batteries Strategies for Next-Generation Energy Storage Devices
Characterize the mechanical properties and
fracture of all-solid-state batteries