Yogesh Verma

Mr. Yogesh Verma (PhD 2014-2019)

He has been studying Mindlin's plates with non-classical boundary conditions, concentrating on theoretical efficacy of free vibration analysis through accuracy of admissible functions into the energy-based Rayleigh-Ritz method. This includes rigid-body modes of plates with free edges. he has also studied wet vibration of cantilever plates, both analytically and experimentally.

Teaching Asst : Autumn 2015-Autumn 2017

He has participated in the re-opening of the Vibration lab of the department. Dry and wet plate vibration impact hammer tests were conducted.

Journal Publications

1. Datta, N. and Verma, Y., “Accurate Eigenvector-based generation and computational insights of Mindlin’s plate modeshapes for twin frequencies”, International Journal of Mechanical Sciences Vol 123 (2017), 64-73.

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https://doi.org/10.1016/j.ijmecsci.2017.01.044

2. Datta, N., Kannamwar, A.N.,Verma, Y., Panda, A. “Free Dry Vibration of low aspect-ratio cantilever wing : Semi-analytical and Numerical Analysis with Experimental Verification”, Journal of Ship Production and Design, SNAME. (2017)

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https://doi.org/10.5957/JSPD.33.3.150013

3. N.Datta and Y.Verma, “Analytical scrutiny and prominence of rigid-body modes in vibration of plates with translational edge restraints”, International Journal of Mechanical Sciences. Vol 135, (2018), 124-132

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https://doi.org/10.1016/j.ijmecsci.2017.11.019

4. Y.Verma and N.Datta, “Application of translational edge restraint for vibration analysis of free edge Kirchhoff’s plate including rigid-body modes”, Engineering Transactions (Institute of Fundamental Technological Research, Poland), 66, 1, 21-60, 2018

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5. Y.Verma and N.Datta, "Comprehensive Study of Free Vibration of Rectangular Mindlin’s Plates with Rotationally Constrained Edges using Dynamic Timoshenko Trial Functions", Engineering Transactions (Institute of Fundamental Technological Research, Poland, 1952) 66, 2, 1-32, 2018

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6. Y. Verma, N. Datta, R. K. Praharaj, “A semi-analytical vibration analysis of partially wet square cantilever plate with numerical and experimental verification : partially wet modeshapes”, Journal of Vibration and Acoustics (ASME), 2019

7. R.K. Praharaj, N.Datta, Y.Verma, M. R Sunny, “Transverse vibration of thin rectangular orthotropic plate with non-classical edge boundary conditions: a semi-analytical approach”, Iranian Journal of Science and Technology, Transactions of Mechanical Engineering. 2019 DOI : https://doi.org/10.1007/s40997-019-00337-5

Conference Publications

1. N.Datta, A.N. Kannamwar, Y.Verma, “Wet vibration of low-aspect-ratio wing : semi-analytical and numerical approach with experimental investigation”, Proceedings of the 36^th International Conference on Ocean, Offshore and Polar Engineering (OMAE2017), Trondhiem, Norway, June 25-20, 2017.

2. Y.Verma, N.Datta, R. Praharaj, "Closed-form vibration analysis of rectangular simply supported Mindlin plates with multiple stiffeners", 25th International Congress on Sound and Vibration (ICSV22), Hiroshima, Japan, July 8-12, 2018