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Chiranjit Sarkar
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Theoretical and experimental studies on a magnetorheological brake operating under compression plus shear mode
C Sarkar, H Hirani
Smart Materials and Structures 22 (11), 115032, 2013
972013
Effect of particle size on shear stress of magnetorheological fluids
C Sarkar, H Hirani
Smart Science 3 (2), 65-73, 2015
692015
Design of a squeeze film magnetorheological brake considering compression enhanced shear yield stress of magnetorheological fluid
C Sarkar, H Hirani
Journal of Physics: Conference Series 412 (1), 012045, 2013
642013
Development of a magnetorheological brake with a slotted disc
C Sarkar, H Hirani
Proceedings of the Institution of Mechanical Engineers, Part D: Journal of …, 2015
622015
Synthesis and characterization of antifriction magnetorheological fluids for brake
C Sarkar, H Hirani
Defence science journal 63 (4), 408, 2013
602013
Influence of graphite flakes on the strength of magnetorheological fluids at high temperature and its rheology
MK Thakur, C Sarkar
IEEE Transactions on Magnetics 56 (5), 1-10, 2020
382020
Magnetorheological smart automotive engine mount
C Sarkar, H Hirani, A Sasane
International Journal of Current Engineering and Technology 5 (1), 419-428, 2015
212015
Experimental studies on magnetorheological brake containing plane, holed and slotted discs
C Sarkar, H Hirani
Industrial Lubrication and Tribology 69 (2), 116-122, 2017
202017
Synthesis and Characterisation of Nano Silver Particle-based Magnetorheological Fluids for Brakes.
C Sarkar, H Hirani
Defence Science Journal 65 (3), 2015
202015
Lubricating grease flow in a double restriction seal geometry: A computational fluid dynamics approach
LG Westerberg, C Sarkar, JF Lladós, TS Lundström, E Höglund
Tribology letters 65, 1-17, 2017
192017
Rheological response of soft flake-shaped carbonyl iron water-based MR fluid containing iron nanopowder with hydrophilic carbon shell
CS Maurya, C Sarkar
Rheologica Acta 60, 277-290, 2021
172021
Effect of Fe₃O₄ nanoparticles on magnetorheological properties of flake-shaped carbonyl iron water-based suspension
CS Maurya, C Sarkar
IEEE Transactions on Magnetics 56 (12), 1-8, 2020
172020
Synthesis and characterization of nano-copper-powder based magnetorheological fluids for brake
C Sarkar, H Hirani
International Journal of Scientific Engineering and Technology 4 (2), 76-82, 2015
172015
Design and development of a wedge shaped magnetorheological clutch
A Singh, M Kumar Thakur, C Sarkar
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of …, 2020
162020
Clarification on the choice of sheet positioning in friction stir welding of dissimilar materials
R Kesharwani, M Imam, C Sarkar
Manufacturing Letters 24, 100-104, 2020
162020
Synthesis and characterization of nano-particles based magnetorheological fluids for brake
C Sarkar, H Hirani
Tribology Online 10 (4), 282-294, 2015
162015
Rheological and creep and recovery behavior of carbonyl iron water-based magnetorheological gel using laponite as an additive and oleic acid as a surfactant
CS Maurya, C Sarkar
Rheologica Acta 61 (2), 99-110, 2022
132022
Investigation of different groove profile effects on torque transmission in shear mode magnetorheological clutch: numerical simulation and experimental study
MK Thakur, C Sarkar
Journal of Tribology 143 (9), 091801, 2021
132021
Design of magnetorheological brake using parabolic shaped rotating disc
C Sarkar, H Hirani
International journal of current engineering and technology 5 (2), 725-732, 2015
132015
Numerical and experimental studies on friction stir welding of 6061-T6 AA with Al2O3 powder particle reinforcement
R Kesharwani, KK Jha, C Sarkar, M Imam
Materials Today: Proceedings 56, 826-833, 2022
122022
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