Upendra V. Bhandarkar, Ph.D.
Affiliations: | 2003 | University of Minnesota, Twin Cities, Minneapolis, MN |
Area:
Mechanical Engineering, Fluid and Plasma PhysicsGoogle:
"Upendra Bhandarkar"Parents
Sign in to add mentorUwe R. Kortshagen | grad student | 2003 | UMN | |
(Study of particle nucleation and growth in low pressure silane plasmas.) |
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Publications
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Jithin S, Raut A, Bhandarkar UV, et al. (2020) Finite element model for topography prediction of electrical discharge textured surfaces considering multi-discharge phenomenon International Journal of Mechanical Sciences. 177: 105604 |
Jithin S, Bhandarkar UV, Joshi SS. (2020) Multi-spark model for predicting surface roughness of electrical discharge textured surfaces The International Journal of Advanced Manufacturing Technology. 106: 3741-3758 |
Mankodi TK, Bhandarkar UV, Puranik BP. (2019) Hypersonic flow over Stardust Re-entry Capsule using ab-initio based chemical reaction model Acta Astronautica. 162: 243-255 |
Mankodi TK, Bhandarkar UV, Puranik BP. (2018) Dissociation cross section for high energy O2-O2 collisions. Journal of Chemical Physics. 148: 144305 |
Shah N, Agrawal A, Bhandarkar U. (2018) 3D study of temperature drop behavior of subsonic rarefied gas flow in microchannel Numerical Heat Transfer Part a-Applications. 73: 654-665 |
Gavasane A, Agrawal A, Bhandarkar U. (2018) Study of rarefied gas flows in backward facing micro-step using Direct Simulation Monte Carlo Vacuum. 155: 249-259 |
Jithin S, Raut A, Bhandarkar UV, et al. (2018) FE Modeling for Single Spark in EDM Considering Plasma Flushing Efficiency Procedia Manufacturing. 26: 617-628 |
Hemadri V, Agrawal A, Bhandarkar UV. (2018) Determination of tangential momentum accommodation coefficient and slip coefficients for rarefied gas flow in a microchannel Sadhana-Academy Proceedings in Engineering Sciences. 43: 164 |
Mankodi TK, Bhandarkar UV, Puranik BP. (2017) An ab initio chemical reaction model for the direct simulation Monte Carlo study of non-equilibrium nitrogen flows Journal of Chemical Physics. 147: 84305 |
Gavasane A, Agrawal A, Pradeep AM, et al. (2017) Simulation of a temperature drop for the flow of rarefied gases in microchannels Numerical Heat Transfer Part a-Applications. 71: 1066-1079 |