Gender

Male


Location

West Bengal, Kolkata


Birthday:

November 1


I am...

Engineer


My research field or area of interest innanotechnology

Nanostructures; Carbon nanotubes; Multiscale modeling


Interest in...

Advanced continuum models for nanostructures (CNTs and graphene sheets)


Publication list

[1] C Y Wang, T Murmu and S. Adhikari, “Mechanisms of Nonlocal effect in the Vibration of Nanoplates”, Applied Physics Letters 98[15] (2011), pp. 153101:1-3 [2] Murmu, T. and Adhikari, S., "Nonlocal frequency analysis of nanoscale biosensors", Sensors & Actuators: A. Physical. (2011) (In-press) [3] T. Murmu, S Adhikari and C Y Wang, Torsional vibration of carbon nanotube–buckyball systems based on nonlocal elasticity theory, Physica E: Low-Dimensional Systems and Nanostructures, 43[6] (2011), pp. 1276-1280 [4] T. Murmu and S Adhikari, Nonlocal vibration of carbon nanotubes with attached buckyballs at tip, (2011) Mechanics Research Communication 38[1] (2011), pp. 62-67 [5] Murmu T and Adhikari, S, Axial instability of double-nanobeam-systems, Physics Letters A. 375[3] (2011), pp. 601-608 [6] Murmu T and Adhikari, S, Scale-Dependent Vibration Analysis of Pre-stressed Carbon Nanotubes undergoing Rotation, Journal of Applied Physics, 108[12] (2010), pp. 123507:1-7. [7] Murmu T and Adhikari S, Nonlocal Transverse Vibration of Double-Nanobeam-Systems, Journal of Applied Physics, American Institute of Physics (AIP) archival journal 108[8] (2010), pp. 083514:1-9 [8] Murmu T and Adhikari S, Nonlocal effects in the longitudinal vibration of double-nanorod systems, Physica E: Low-Dimensional Systems and Nanostructures 43[1] (2010), pp. 415-422 [9] Pradhan, S. C and Murmu T., Small Scale Effect on the Buckling of Single-Layered Graphene Sheets under Bi-axial Compression via Nonlocal Continuum Mechanics, Computational Materials Science, Volume, 47(1), (2009) 268-274. [10] Murmu T. and Pradhan, S. C., Vibration Analysis of Nano Single - Layered Graphene Sheets Embedded in Elastic Medium Based on Nonlocal Elasticity Theory, Journal of Applied Physics, American Institute of Physics (AIP) archival journal, 105 (2009), 064319 [11] Murmu T. and Pradhan S C, Thermal effect in the stability of embedded carbon nanotubes, Computational Materials Science, 47 (3) (2010) 721-726. [12] Murmu T. and Pradhan, S. C., Buckling analysis of single-walled carbon nanotubes embedded in an elastic medium based on nonlocal elasticity and Timoshenko beam theory and using DQM. Physica E: Low-Dimensional Systems and Nanostructures, 41(7) (2009) 1232-1239. [13] Murmu T. and Pradhan, S. C., Thermo-mechanical Vibration of a Single-Walled Carbon Nanotube Embedded in an Elastic Medium based on Nonlocal Elasticity Theory Computational Materials Science, 46(4) (2009) 854-859. [14] Pradhan S. C and Murmu T., Vibration analysis of a single-walled carbon nanotubes embedded in an elastic medium based on nonlocal elasticity and Timoshenko beam theory, Journal of Applied Physics, American Institute of Physics (AIP) archival journal, 105 (2009) 124306 (Selected for the volume 20, issue 1 (2009) of Virtual Journal of Nanoscale, Science & Technology) [15] Murmu T. and Pradhan, S. C., Buckling of Bi-axially Compressed Orthotropic Plates at Small Scales, Mechanics Research Communications, 36(8) (2009) 933-938. [16] T Murmu and S. C Pradhan, Vibration Analysis of Nanoplates under Uniaxial Prestressed Conditions via Nonlocal Elasticity, Journal of Applied Physics, American Institute of Physics (AIP) archival journal 106 (2009) 104301. [17] Murmu T. and Pradhan, S. C., Small scale effect on the free in-plane vibration of nanoplates by nonlocal continuum model, Physica E: Low-Dimensional Systems and Nanostructures, 41(8) (2009) 1628-1633. [18] Murmu T and Pradhan, S. C., Small-Scale Effect on the Vibration of Nonuniform Nanocantilever based on Nonlocal Elasticity Theory, Physica E: Low-Dimensional Systems and Nanostructures, 41(8) (2009) 1451-1456. [19] Pradhan, S. C. and Murmu T, Application of nonlocal elasticity and DQM in the flapwise bending vibration of a rotating nanocantilever, Physica E: Low-Dimensional Systems and Nanostructures, 42(7) (2010) 1944-1949. [20] Pradhan, S. C. and Murmu T, Differential Quadrature Method for Vibration Analysis of Beam on Winkler Foundation based on Nonlocal Elastic Theory, Journal of Institution of Engineers (India), Mechanical Engineering Division, 89 (2009) 3-12. [21] Murmu T and Pradhan, S. C., Vibration and Buckling Analysis of Nano-Scale Beams via Nonlocal Elasticity and Timoshenko Beam Theory: A Differential Quadrature Approach, Journal of Aerospace Sciences and Technologies, 62(1) 2010 40-54. [22] Murmu T and Pradhan, S. C., Buckling Analysis of Beam on Winkler Foundation by using MDQM and Nonlocal Theory, Journal of Aerospace Sciences and Technologies, 60(3) (2008) 206-215. [23] Pradhan, S. C. and Murmu T, Thermo-mechanical vibration of FGM sandwich beam under variable elastic foundation using differential quadrature method Journal of Sound and Vibration, 321(1-2) (2009) 342-362. [24] Pradhan, S. C. and Murmu T., Small Scale Effect on the Buckling Analysis of Single-Layered Graphene Sheet Embedded in an Elastic Medium Based on Nonlocal Plate Theory, Physica E: Low-Dimensional Systems and Nanostructures, 42 (2010) 1293-1301. (Book chapter request by http://intechweb.org) [25] T. Murmu, J Sienz, S Adhikari, Cris Arnold, Nonlocal Buckling of Bonded Double-Nanoplates, Journal of Applied Physics, 2011 (in-press) [26] T. Murmu, S Adhikari, Nonlocal vibration of bonded double-nanoplate-systems", Composites Part B: Engineering, 42[7] (2011), pp. 1901-1911


Researchgroup, Institute, University, School, Company name

University of Limerick, Ireland


Researchgroup, Institute, Company, University, School webpage

https://www.ul.ie/


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