Dr. Manojit Ghosh graduated from department of Metallurgical and Materials Engineering, Jadavpur University, received his M.Tech. (Metallurgy and Materials Engineering) degree from IIT Kharapur, and obtained Ph.D. from Delft University of Technology, The Netherlands. He is currently an Associate Professor in the Department of Metallurgy and Materials Engineering, Indian Institute of Engineering Science and Technology, Shibpur, India. His research interest includes structure-property correlations, thermo-mechanical simulations of non-ferrous metals and alloys, composite materials, crystallographic texture and coating technology. He has published over 80 research articles in international journals and edited conference proceedings.
# | Patents | Year |
---|---|---|
1 | A process for preparing improved Ti composite foams as bio-implants materials | 2019 |
Departmental Post Graduate Committee (DPGC)
Metallurgy and Materials Engineering, IIEST Shibpur
Research:
Influence of Ag and Sn on microstructure, texture and mechanical properties of Al-Zn-Mg-Cu alloy
Research:
Texture evaluation and study of mechanical properties during EBW and Rolling of pure Niobium
Research:
Development of aluminium based metal matrix composite with hybrid reinforcement processed through powder metallurgy route
Research:
Transition and Rare Earth Meta based Micro- Nano Sized Powder Coating by HVOF Technique for Wear and Corrosion resistance applications.
Research:
Estimation of Tribological properties and theromechanical response of Cu-TiB2 MMCs
Research:
Cellulose based polymeric scaffold for skin and bone tissue engineering using electrospinning and 3D bioprinting
Research:
Characteristics and Bio-compatibility Evaluation of Porous Titanium for Bio-medical Applications
Research:
FSW and LBW for similar and dissimilar Metal Joints
Research:
Processing of Al-Cu-Li alloys by severe plastic deformation
Research:
Aluminium based Coating by Hot Dipping on Steel
Research:
Plasma sprayed High entropy alloy Coating
Research:
Transient process simulation of heat transfer in solid and fluid by Electron Beam Welding (EBW) in pure Niobium substrate using an equivalent heat source.
Research:
Predicting the Mechanical properties of Aluminium alloy by Machine Learning.
Research:
Application of Supervised Machine Learning to identify in process defect detection and process parameter optimization in Laser powder bed fusion manufacturing process.
Research:
Structure of high entropy alloy
Research:
Application of machine learning in stir casting
Research:
Role of crystallographic texture on the development of microstructure and mechanical properties during stir casting of some Magnesium based alloys
Research:
High velocity oxygen fuel spray coating
Research:
Wire EDM Performance and Microstructure Analysis of ECAPed Aluminium Alloy.
Google Scholar | ||
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CITATION | H-INDEX | I-10 INDEX |
336 | 9 | 9 |
Research Gate | ||
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PUBLICATIONS | CITATION | H-INDEX |
70 | 290 | 8 |
Scopus | ||
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DOCUMENTS | CITATION | H-INDEX |
44 | 252 | 9 |
Created: 23 November 2019