Journal publications
[J8] Mukherjee, D., Hao, S., Shearing, P.R., McMeeking, R.M., Fleck, N.A., Deshpande, V.S., 2023. Ingress of Li into solid electrolytes: cracking and sparsely filled cracks. Small Struct., 2300022. [ doi ]
[J7] Mukherjee, D., Danas, K., 2022. A uni ed dual modeling framework for soft and hard magneto-rheological elastomers. Int. J. Solids Struct. 257, 111513. [ doi ]
[J6] Rambausek, M., Mukherjee, D., Danas, K., 2022. A computational framework for magnetically hard and soft viscoelastic magnetorheological elastomers. Comput. Methods Appl. Mech. Engrg. 391, 114500. [ doi ]
[J5] Mukherjee, D., Rambausek, M., Danas, K., 2021. An explicit dissipative model for isotropic hard magnetorheological elastomers. J. Mech. Phys. Solids 151, 104361. [ doi ]
[J4] Mukherjee, D., Bodelot, L., Danas, K., 2020. Microstructurally-guided explicit continuum models for isotropic magnetorheological elastomers with iron particles. Int. J. Nonlin. Mech. 120, 103380. [ doi ]
[J3] Mukherjee, D., Danas, K., 2019. An evolving switching surface model for ferromagnetic hysteresis. J. Appl. Phys. 125, 033902. [ doi ]
[J2] Danas, K., Mukherjee, D., Haldar, K., Triantafyllidis, N., 2019. Bifurcation analysis of twisted liquid crystal bilayers. J. Mech. Phys. Solids 123, 61-79. [ doi ]
[J1] Mukherjee, D., Sharma, I., Gupta, S.S., 2019. Dynamics and stability of variable-length, vertically-traveling cables, with application to tethered aerostats. J. Aircraft 56(1), 68-84. [ doi ]
Thesis
Ph.D. Thesis: Theoretical and numerical modeling of magnetorheological elastomers comprising magnetically soft and hard particles, 2020, Institut Polytechnique de Paris. [ doi ] [ pdf ]
M.Tech. Thesis: Dynamics and stability of axially lengthening and shortening heavy cables with end mass, 2016, Indian Institute of Technology Kanpur. [ pdf ]
Invited talks
[Jul 2024] On the stretch-independence of magnetization in hard magnetoelastic structures. Indian National Conference of Applied Mechanics (INCAM) 2024, NIT Warangal.
[Nov 2023] Computational challenges in simulating magneto-active catheter propagation in human body. HPC research week, organized by National Supercomputing Mission and IIT Madras.
[Jun 2023] Shape morphing of magneto-active soft elastomers – application to catheter locomotion. Soft Matter Young Investigator’s Meet, Jim Corbett, Uttarakhand, India.
[Apr 2022] Microstructurally-guided continuum modeling of hard magnetorheological elastomers. ME Seminar, Indian Institute of Technology Kanpur.
[Feb 2022] Modeling lithium dendrite and dry crack propagation in all-solid- state Li-ion batteries. LMS Seminar series, Ecole Polytechnique, France. (link)
[May 2021] Microstructurally-guided continuum modeling of soft and hard magnetorheological elastomers. Bio and Micromechanics Seminar series, Cambridge University Engineering Department.