Publications
Conferences
Chandra, N.K., Kumar, A. and Ghosh, R., 2020, July. Streamer Formation in Particle Laden Polymeric Flows. In International Conference on Nanochannels, Microchannels, and Minichannels (Vol. 83693, p. V001T16A006). American Society of Mechanical Engineers. [Full-length technical paper]
N. K. Chandra, U. Ghosh, A. Saha, and A. Kumar, “Rod climbing effect modulated by the three-phase contact line behavior,” in APS March Meeting Abstracts, vol. 2022, Z31–006. [Online virtual presentation]
Chandra, Navin Kumar, kaustuv Lahiri and Aloke Kumar. "Role of contact angle hysteresis on the rod climbing effect of Newtonian liquids." European Fluid Mechanics Conference (EFMC), September 2022, Athens, Greece. [Oral presentation]
Navin Kumar Chandra, Shubham Sharma, Saptarshi Basu, and Aloke Kumar. "Aerobreakup of a polymeric droplet by a moving shockwave." Complex Fluids Symposium 2022, Indian Institute of Technology, Kharagpur, India. [Oral presentation]
N. K. Chandra, S. Sharma, S. Basu, and A. Kumar, “Breakup of a polymeric droplet in high-speed airflow,” in XIXth International Congress on Rheology (ICR) 2023, Athens, Greece. [Oral presentation]
Journal Publication
N. K. Chandra, S. Sharma, S. Basu, and A. Kumar, “Aerodynamic bag breakup of a polymeric droplet,” arXiv preprint arXiv:2309.14729, 2023. [Under review]
N. K. Chandra, S. Sharma, S. Basu, and A. Kumar, “Shock-induced aerobreakup of a polymeric droplet,” Journal of Fluid Mechanics [front cover article], vol. 965, A1, 2023.
S. Sharma, N. K. Chandra, S. Basu, and A. Kumar, “Advances in droplet aerobreakup,” The European Physical Journal Special Topics, vol. 232, no. 6, pp. 719–733, 2023.
S. Sharma, N. K. Chandra, A. Kumar, and S. Basu, “Shock-induced atomisation of a liquid metal droplet,” Journal of Fluid Mechanics, vol. 972, A7, 2023.
S. Sharma, S. J. Rao, N. K. Chandra, A. Kumar, S. Basu, and C. Tropea, “Depth from defocus technique applied to unsteady shock-drop secondary atomization,” Experiments in Fluids, vol. 64, no. 4, p. 65, 2023.
N. K. Chandra, K. Lahiri, and A. Kumar, “Contact angle hysteresis can modulate the Newtonian rod-climbing effect,” Physics of Fluids, vol. 34, no. 9, 2022.
N. K. Chandra, U. U. Ghosh, A. Saha, and A. Kumar, “Contact line pinning and depinning can modulate the rod-climbing effect,” Langmuir [front cover article], vol. 37, no. 51, pp. 14 785–14 792, 2021.