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Manish,Madhav Jogelekar
Manish M. Joglekar Associate Professor mmj81fme[at]iitr.ac.in +91-1332-284769 Website
Areas of Interest
  • Solid mechanics, Nonlinear elasticity, Finite element methods
  • Structural dynamics, .
  • Mechanics of soft active materials, .
  • Bio-mimetic engineering, .
Professional Background
FromToDesignationOrganisation
Dec. 2018Till DateAssociate Professor (MIED)IIT Roorkee
Nov. 2012Dec. 2018Assistant Professor (MIED)IIT Roorkee
Dec. 2010June 2012Research AssociateGeneral Motors' India Science Laboratory
July 2010Nov. 2010EngineerEaton Corporation
Honors and Awards
AwardInstituteYear
Institute Research Fellowship for Outstanding Young FacultyIIT Roorkee2019
Outstanding Teacher AwardIIT Roorkee2018
Educational Details
DegreeSubjectUniversityYear
Ph.D.Mechanical EngineeringIIT Bombay2011
M.E. Mechanical EngineeringWalchand College of Engineering (Shivaji Univ)2005
B.E.Mechanical EngineeringK.J. Somaiya College of Engineering (Mumbai Univ.)2002
Sponsored Research Projects
TopicFunding AgencyYear
Design development and characterization of a DE-based variable focal length mirrorScience and Engineering Research Board2018
Mathematical modeling and experimental characterization of the dynamic response of DE actuatorsScience and Engineering Research Board2014
Input shaping control of beam-type electrostatic microactuatorsIIT Roorkee2013
Teaching Engagements
TitleCourse CodeClass NameSemester
Finite Element MethodsMIN-557M.Tech (Machine Design)Autumn
Advanced Mechanical VibrationsMIN-567M.Tech (Machine Design)Spring
Advanced Mechanics of SolidsMIN-552M.Tech (Machine Design)Autumn
Dynamics of MachinesMIN-301B.Tech (Mechanical)Autumn
Mechanics of MaterialsMIN-206B.Tech (Mechanical)Spring
Machine DesignMIN-302B.Tech (Mechanical)Autumn
Machine DrawingMIN-204B.Tech (Mechanical)Spring
Theory of MachinesMIN-211B.Tech (Production and Industrial)Spring
Programming and Data StructuresMIN-103B.Tech (Production and Industrial)Autumn
Introduction to Mechanical and P&I EngineeringMIN-101B.Tech (Mechanical and P&I)Autumn
Mechanical Engineering DrawingMIN-108B.Tech (Mechanical)Autumn
Refereed Journal Papers
  1. S.S. Chauhan, M.M. Joglekar, S.K. Manhas, High power density CMOS compatible micro- machined MEMs energy harvester, accepted for publication in IEEE Sensors Journal, DOI: 10.1109/JSEN.2019.2923972.
  2. A.K. Sharma, M.M. Joglekar, A computationally efficient locking free numerical framework for modeling visco-hyperelastic dielectric elastomers, Computer Methods in Applied Mechanics and Engineering, 352, 625-653, 2019.
  3. A.K. Sharma, P. Kumar, A. Singh, D.M. Joglekar, M.M. Joglekar, Electromechanical instability of dielectric elastomer actuators with active and inactive electric regions, ASME Journal of Applied Mechanics, 86 (6), 061008, 11pp., 2019.
  4. A. K. Sharma and M.M. Joglekar, A numerical framework for modeling anisotropic dielectric elastomers, Computer Methods in Applied Mechanics and Engineering, 344, 402-420, 2019.
  5. A. K. Sharma and M.M. Joglekar, Effect of anisotropy on the dynamic electromechanical instability of a dielectric elastomer actuator, Smart Materials and Structures, https://doi.org/10.1088/1361-665X/aaeaa5, 2019.
  6. S.S. Chauhan, M.M. Joglekar, S.K. Manhas, Influence of process parameters and formation of highly c-Axis oriented AlN thin films on Mo by reactive sputtering, Journal of Electronic Materials,  47(12), 7520-7530, 2019.
  7. N. Arora, P. Kumar, M.M. Joglekar, A modulated voltage waveform for enhancing the travel range of dielectric elastomer actuators, ASME Journal of Applied Mechanics, 85 (11), 111009 (8pp), 2018.
  8. A.K. Sharma, R.K. Godara, M.M. Joglekar, Static and DC dynamic pull-in analysis of curled microcantilevers with a compliant support, Microsystem Technologies, 2018, https://doi.org/10.1007/s00542-018-4046-4.
  9. A.K. Sharma, N. Arora, M.M. Joglekar, DC dynamic pull-in instability of a dielectric elastomer balloon: An energy-based approach, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 474(2211), 20170900, 2018.
  10. R.K. Godara and M.M. Joglekar, Suppression of contact bounce in beam-type microelectromechanical switches using a feedforward control scheme, Journal of Vibration and Control, https://doi.org/10.1177/1077546318755978, 2018.
  11. R.K. Godara and M.M. Joglekar, Alleviation of residual oscillations in electrostatically actuated variable-width microbeams using a feedforward control strategy, Microsystem Technologies, 23(10), 4441-4457, 2017.
  12. A.K. Sharma, S. Bajpayee, D.M. Joglekar, and M.M. Joglekar, Dynamic instability of dielectric elastomer actuators subjected to unequal biaxial prestress, Smart Materials and Structures, 26(11), 115019 (13 pp), 2017.
  13. R.K. Godara and M.M. Joglekar, Mitigation of residual oscillations in electrostatically actuated microbeams using a command-shaping approach, Journal of Micromechanics and Microengineering, 115028 (15 pp), 2015.
  14. R.R. Trivedi, A. Bhushan, M.M. Joglekar, D.N. Pawaskar, R.P. Shimpi, Enhancement of static and dynamic travel range of electrostatically actuated microbeams using hybrid simulated annealing, International Journal of Mechanical Sciences, 98, pp. 93-110, 2015.
  15. M.M. Joglekar, Dynamic-instability parameters of dielectric elastomer actuators with equal biaxial prestress, AIAA Journal, 53(10) pp. 3129-3133, 2015.
  16. M.M. Joglekar, An energy-based approach to extract the dynamic instability parameters of dielectric elastomer actuators, ASME Journal of Applied Mechanics, 81(9), 091010, 2014.
  17. M.M. Joglekar, Ramakrishnan N., S. Inguva, S. K. Vanimisetti, and R.B. Moulliet, Numerical implementation of porous composite electrode–degradation model to study the cycle life of Li-ion cell, International Journal of Computational Materials Science and Engineering, 2(2), 1350012, 2013.
  18. M.M. Joglekar and Ramakrishnan N., Cyclic capacity fade plots for aging studies of Li-ion cells, Journal of Power Sources, 230, pp. 143-147, 2013.
  19. Ramakrishnan Narayanrao, M.M. Joglekar, S. Inguva, A phenomenological degradation model for cyclic aging of lithium ion cell materials, Journal of The Electrochemical Society, 160(1), pp. A125-A137, 2013.
  20. M.M. Joglekar and D.N. Pawaskar, Shape optimization of electrostatically actuated microbeams for extending static and dynamic operating ranges, Structural and Multidisciplinary Optimization, 46, pp. 871–890, 2012.
  21. M.M. Joglekar and D.N. Pawaskar, Closed–form empirical relations to predict the dynamic pull–in parameters of electrostatically actuated tapered microcantilevers, Journal of Micromechanics and Microengineering, Article No: 105014, 2011.
  22. M.M. Joglekar and D.N. Pawaskar, Estimation of oscillation period/switching time for electrostatically actuated microbeam type switches, International Journal of Mechanical Sciences, 53(2), pp. 116-125, 2011. 
  23. M.M. Joglekar and D.N. Pawaskar, Closed–form empirical relations to predict the static pull–in parameters of electrostatically actuated microcantilevers having linear width variation, Microsystem Technologies, 17(1), pp. 35-45, 2011.
  24. D.B. Kulkarni and M.M. Joglekar, Residue minimization technique to analyze the efficiency of convective straight fins having temperature-dependent thermal conductivity, Applied Mathematics and Computation215 (6), pp. 2184-2191, 2009.