- Visiting Lecturer, Engineering Technology & Industrial Distribution
- Manufacturing & Mechanical Engineering Technology
- Phone: 979-458-6931
- Email: sreejith@tamu.edu
- Office: THOM 118H
Educational Background
- Ph.D., Mechanical Engineering, Indian Institute of Technology Madras - 2023
- M.S., Mechanical Engineering, Indian Institute of Technology Madras - 2023
- B.S., Mechanical Engineering, Amrita University - 2016
Research Interests
-
- Constitutive Modeling (Material Modeling)
- Continuum Mechanics
- Additive Manufacturing
- Mechanics of Soft and Biological Materials
- 3D Printing of Colloidal Suspensions (cement)
Selected Publications
- P. Sreejith, K. Kannan, K. R. Rajagopal, A thermodynamic framework for additive manufac- turing, using amorphous polymers, capable of predicting residual stress, warpage and shrinkage, International Journal of Engineering Science, 159, 2021, 103412, ISSN 0020-7225, DOI
- P. Sreejith, K. Kannan, K. R. Rajagopal, A thermodynamic framework for the additive manu- facturing of crystallizing polymers. Part I: A theory that accounts for phase change, shrinkage, warpage and residual stress, International Journal of Engineering Science, 183, 2023, 103789, ISSN 0020-7225, DOI
- P. Sreejith, K. Srikanth, K. Kannan, K. R. Rajagopal, A thermodynamic framework for additive manufacturing of crystallizing polymers, Part II: Simulation of the printing of a stent, International Journal of Engineering Science, 184, 2023, 103, ISSN 0020-7225, DOI
- K Srikanth, P. Sreejith, K. Arvind, K. Kannan, M. Pandey, An efficient mode-of-deformation dependent rate-type constitutive relation for multi-modal cyclic loading of elastomers, International Journal of Plasticity, 163, 2023, 103517, ISSN 0749-6419, DOI
- V Kulwant, K. Arvind, D. Prasad, P. Sreejith, K.V. Mohankumar, K. Kannan, A semi-analytical inverse method to obtain the hyperelastic potential using experimental data, Journal of Mechanics and Physics of Solids, 181, 2023, 105431, ISSN 0022-5096, DOI