Dr. Devesh Punera

Publications

1• Punera, D. and Chanda, A. G., 2022. Discussion on “Influence of porosity distribution on free vibration and buckling analysis of multi-directional functionally graded sandwich plates” Composite Structures, Volume 279, 2022, 114795, Composite Structures, 290; 115575. (IF: 6.6)
2• Punera, D. and Mukherjee, P., 2022. Recent developments in manufacturing, mechanics, and design optimization of variable stiffness composites, Journal of Reinforced Plastics and Composites, (IF: 3.3)
3• Punera, D. and Kant, T. (2021) Two Dimensional Kinematic Models for CNT Reinforced Sandwich Cylindrical Panels with Accurate Transverse Interlaminar Shear Stress Estimation, Thin Walled Structures (IF: 4.033)
4• Mukherjee, P., Punera, D., and Mishra, M., Coupled Flexural Torsional Analysis and Buckling Optimization of Variable Stiffness Thin-Walled Composite Beams, Mechanics of Advanced Materials and Structures (Accepted) (IF:3.517)
5• Punera, D., The Effect of Agglomeration and Slightly Weakened CNT-matrix Interface on Free Vibration Response of Cylindrical Nanocomposites, Acta Mechanica (Accepted, in press) (IF: 2.133)
6• Punera, D. and Kant, T., An assessment of refined hierarchical kinematic models for the bending and free vibration analyses of laminated and functionally graded sandwich cylindrical panels, Journal of Sandwich Structures and Materials (JSSM)(Accepted: in press) (IF:5.015)
7• Punera, D. and Kant, T., 2019. A critical review of stress and vibration analyses of functionally graded shell structures, Composite Structures, 210; pp. 787-809. (IF: 4.101)
8• Punera, D., Kant, T., and Desai, Y. M., 2018. Thermo-elastic Analysis of Laminated and Functionally Graded Sandwich Cylindrical Shells with Two Refined Higher Order Models, Journal of Thermal Stresses, 41(1); pp. 54-79. (IF: 1.852)
9• Punera, D. and Kant, T., 2017. Elastostatics of Laminated and Functionally Graded Sandwich Cylindrical Shells with Two Refined Higher Order Models, Composite Structures, 182; pp. 505-523. (IF: 4.101)
10• Punera, D. and Kant, T., 2017. Free Vibration of Functionally Graded Open Cylindrical Shells based on Several Refined Higher Order Displacement Models, Thin Walled Structures, 119C; pp. 707-726. (IF: 2.881)
1• Kant, T. and Punera, D., 2017. A Refined Higher Order Theory for Statics and Dynamics of Doubly Curved Shells, Proc. Indian Natl. Sci. Acad., 83(3); pp. 611-630.
1• Mukherjee, P., Sao, L. K., and Punera, D. Flexural torsional couplings in thin-walled beams having variable stiffness. In: Indian Structural Steel Conference, 6-8 January 2022, IIT Hyderabad, India.
2Punera, D. and Kant, T., Reflections on Hierarchical kinematic shell theories with applications to carbon nano-tube (CNT) reinforced composites. In: 7th International Congress on Computational Mechanics & Simulations, 11-13th December, 2019, IIT Mandi, India.
3• Punera, D., Kant, T., and Desai, Y. M. Free vibration of laminated and FG Sandwich Panels using Higher Order Shear and Normal Deformation Theory. In: International Conference on Composite Materials and Structures, 27-29 December 2017, IIT Hyderabad, India.
4• Punera, D. and Kant, T. Free Vibration Analysis of Functionally Graded Open Cylindrical Panels using a Higher Order Shear and Normal Deformation Theory. In: 12th World Congress on Computational Mechanics and 6th Asia-Pacific Congress on Computational Mechanics, 24-29 July 2016, Seoul, Korea.
5• Punera, D. and Kant, T. Thermal Stress Analysis of Functionally Graded Plates and Open Cylindrical Shells. In: 6th International Congress on Computational Mechanics and Simulation, 27th June – 1st July 2016, IIT Bombay, India.