Assistant Professor, Department of Metallurgical & Material Engineering
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Education
DegreeYearUniversity

Ph.D.
M.E.
B.E.

Teaching Experience (0)
Industrial Experience (0)
Field of Specialization
Heat treatment of Metals and Alloys;
Corrosion; Nanomaterials
Courses Taught/Teaching
Heat treatment of Metals and Alloys;
Nanocomposites; Material Science and Engineering, Theory of Metallurgical Processes
Research Area
Heat treatment of Metals and Alloys;
Corrosion; Nanomaterials
Experience
Conference Papers Published (3)
Title of the paper Conference Year Role Vol Number-Page Name

Evidence of identification of versatile metal characteristics of iron by early Bengal iron makers International Conference of on Ancient Science & Technology: Restrospection & Aspiration (ASTRA-2016) 2016 Utpal Kumar Maity, Pranab Chattopadhya, Sathi Banerjee, Prasanta K. Datta -
Production of Small Scale Wrought Iron from Lean Ores 23rd West Bengal State Science & Technology Congress 2016 2016 Utpal Kumar Maity, Sathi Banerjee, Prasanta K. Datta -
Monte Carlo simulation of microstructure evolution during thermo-mechanical rolling of steel using grid computing technology Proceedings of the National Conference on Parallel Computing Technologies (PARCOMPTECH 2013), 2013 -
Journal Papers Published (6)
Title of the paper Journal of publication Year Role Vol Number-Page Name

Lean Grade East Indian Iron Ore under Reduction with Charcoal International Journal of Mechanical And Production Engineering 2016 Utpal Kumar Maity, Soumyajit Roy, Sathi Banerjee, Prasanta Kumar Datta Volume - 4 Issue - 8-
Iron and Iron Making in Eastern India: Characterisation of Excavated Iron objects from Kankandighi Kalahandi Renaissance 2015 Utpal Kumar Maity, Pranab K. Chattopadhyay, Sathi Banerjee and Prasanta K.Datta Vol - IX-
Computational modelling of static recrystallization and two dimensional microstructure evolution during hot strip rolling of advanced high strength steel Journal of Manufacturing Processes 2014 -
A multiscale coupled Monte Carlo model to characterize microstructure evolution during hot rolling of Mo-TRIP steel Acta Materialia 2013 61-7251-7259
Monte Carlo simulation of microstructure evolution during thermo-mechanical rolling of steel using grid computing technology Proceedings of the IEEE Xplore Digital Library 2013 101, Issue 11-1-5.
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Ph.D. Thesis Guidance (0)
M.Phil. Thesis Guidance (0)
MASTER Thesis Guidance (0)
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Collaborative Programs (0)
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Membership Of Learned Societies (0)
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Seminar/Conference/Workshop (0)
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Professional Society Activity (0)
Consultancy work / Testing (0)
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