Research/Projects
Research/Projects
Embedded Files
On-Going Research/Projects
On-Going Research/Projects
Project 1: CORRASBLUE: Coastal corrosion risk management through digital twin model for a sustainable blue economy (Read more)
Project 1: CORRASBLUE: Coastal corrosion risk management through digital twin model for a sustainable blue economy (Read more)
Project 2: Laser powder bed fusion of Ti-6Al-2Sn-4Zr-2Mo alloy for aerospace applications
Project 2: Laser powder bed fusion of Ti-6Al-2Sn-4Zr-2Mo alloy for aerospace applications
Project 3: Improving phase prediction in medium entropy alloys by data augmentation techniques
Project 3: Improving phase prediction in medium entropy alloys by data augmentation techniques
Completed Research/Projects
Completed Research/Projects
Project 1
Project 1
Recycling silicon from end-of-life solar modules for the preparation of novel Silicon–Aluminum composites (Read more)
Recycling silicon from end-of-life solar modules for the preparation of novel Silicon–Aluminum composites (Read more)
Highlights
Highlights
Recovering Si from the naturally damaged solar PV modules
Recycling the recovered Si to produce Si-30Al composite through the melt-infiltration technique
Cost analysis of the recycling process vs. using the pristine Si
Project 2
Project 2
Uncertainty-aware machine learning-based prediction of plasma parameters in a microwave atmospheric pressure plasma jet (Read more)
Uncertainty-aware machine learning-based prediction of plasma parameters in a microwave atmospheric pressure plasma jet (Read more)
Highlights
Highlights
Uncertainty-aware multi-output regression framework for simultaneous prediction of plasma parameters
Explicit quantification of epistemic uncertainty and Mean Prediction Interval Width (MPIW)
SHAP-based interpretability analysis identifying dominant process drivers
Project 3
Project 3
Highlights
Highlights
Material data repository for medium entropy alloy (MEA)
Machine learning aided identification of suitable descriptors of phases in MEA
Inverse design of novel medium entropy alloy composition
Project 4
Project 4
Highlights
Highlights
Fabrication of Mg60Ti24.24Zn9.66Nb6.1 alloy by microwave sintering
Investigation on the phase evolution and thermal stability of the developed alloy
The yield strength, ultimate compressive strength and microhardness of the developed alloy were determined
Nanoindentation was performed to evaluate the mechanical properties of local phases in the developed alloy
Project 5
Project 5
Highlights
Highlights
Bio-corrosion assessment of Mg60Ti24.24Zn9.66Nb6.1 medium entropy alloy
Investigation of the corrosion products and surface films
Thermodynamic modeling for potential-pH diagram
Cytocompatibility assessment using MTT assay and live-dead staining
Hemocompatibility and platelet adhesion evaluation on developed alloy
Detailed description of corrosion mechanism
Highlights
Highlights
Simultaneous improvement in corrosion rate and cytocompatibility with addition of MEA in the Fe matrix
Novel algorithm to design graded bone scaffolds
Mechanical testing of functionally graded Fe-10MEA scaffold
CFD analysis of uniform and graded scaffold
Detailed corrosion analysis of the scaffolds
Project 7
Project 7
Highlights
Highlights
Fabrication of TiMoNb medium entropy alloy through sintering dissolution process and mechanical alloying
Preparation of Mg-xMEA composite foam
TiMoNb reinforcement improved the compressive strength
Mg-7.5MEA foam exhibited best mechanical performance
Project 8
Project 8
Improving the corrosion resistance of Ni electroplates fabricated from modified Watt's bath (Read more)
Improving the corrosion resistance of Ni electroplates fabricated from modified Watt's bath (Read more)
Highlights
Highlights
Additives in Watts bath affects the nucleation and growth overpotentials
Saccharin (SAC) (3 ml/L) and SLS (1.1 g/L) synergistically improve surface roughness and grain refinement
Refined nanocrystalline structure exhibits 65% lower passivation current and 3× higher polarization resistance
Anti-pitting property of SLS and grain-refining ability of SAC enable corrosion-resistant, defect-free nickel coatings
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