Assist. Prof. Dr. Srihari Dodla | Computational Mechanics | Best Researcher Award
Assist Prof Dr. Srihari Dodla, Indian Institute of Technology (BHU) Varanasi, Varanasi India, India
Dr. Srihari Dodla is currently an Assistant Professor at the Department of Mechanical Engineering, Indian Institute of Technology (BHU), Varanasi, India. He holds a Ph.D. from Otto von Guericke University, Germany, where his thesis focused on “Experimental Investigations and Numerical Simulations of Lamellar Cu-Ag Composites.” His research interests lie in texture evolution and multiscale modeling of polycrystalline materials, particularly focusing on crystallographic orientations, microstructural evolution, and micromechanical-based high-fidelity models. He has published extensively in international journals and proceedings and has delivered numerous conference talks on his findings in material sciences.
Publication Profile
Academic Background
Dr. Dodla holds a PhD in Mechanics from Otto von Guericke University, Germany (2015), with prior degrees in Solid Mechanics (MTech) from IIT Madras, India (2011), and Mechanical Engineering (BTech) from SV University, India (2009). His academic journey has been marked by excellent performance, including an 8.87 CGPA in his MTech.
Research Interests
Assist. Prof. Dr. Srihari Dodla’s research primarily focuses on texture evolution and multiscale modeling of polycrystalline materials. His interests lie in understanding crystallographic orientations during primary and secondary processing and how flow and hardening parameters affect microstructural evolution. He works with advanced models such as the High-Fidelity Generalized Method of Cells (HFGMC), Taylor model, and representative volume elements (RVE) using elastoviscoplastic material models.
Awards
Dr. Dodla has been honored with prestigious awards such as the German Science Foundation (DFG) grant for his PhD research, a DAAD fellowship, and an Israel government scholarship for post-doctoral research. These awards reflect his commitment to high-level research and international recognition.
Conclusion
Publication Top Notes
- Finite element simulation of lamellar copperβsilver composites | 23 citations | 2015 π§ͺπ
- Prediction of friction coefficient of su-8 and its composite coatings using machine learning techniques | 16 citations | 2023 π€π§
- Microstructure, flow behavior, and bulk texture evolution of cold drawn copperβsilver composites | 15 citations | 2015 π§¬π οΈ
- Effect of load, sliding frequency, and temperature on tribological properties of graphene nanoplatelets coated carbon fiber reinforced polymer composites | 13 citations | 2023 ποΈπ
- Micromechanical analysis for two-phase copper-silver composites under large deformations | 8 citations | 2017 ππ§
- Mechanical and tribological properties of CNTs coated aramid fiber-reinforced epoxy composites | 7 citations | 2024 π§΅π
- Numerical study of the deformation behavior of eutectic Cu/Ag polycrystals | 7 citations | 2016 π¬π
- Crystal-plasticity simulation of micromachining of single-crystal metal: methodology and analysis | 5 citations | 2016 π§π₯οΈ
- Finite element machining simulations of aerospace materials | 4 citations | 2021 βοΈπ
- Characterization of aerospace alloys: Effect of machining | 3 citations | 2016 βοΈπ