Magnetohydrodynamic Pump Work Simulation

1-Magnetohydrodynamic Drop-on-Demand Liquid Metal Additive Manufacturing: System Overview and Modelling 2-Modeling and characterization of metal droplets generation by using a pneumatic drop-on-demand generator. 3-Research on mechanism of generating aluminum droplets smaller than the nozzle diameter by pneumatic drop-on-demand technology. 4-Rheological Modification of Liquid Metal for Additive Manufacturing of Stretchable Electronics. 5-Liquid phase 3D printing for quickly manufacturing conductive metal objects with low melting point alloy ink. 6-Modification and further development of a drop on demand printhead for wax enabling future 3D-printing and rapid prototyping. 7-MHD printhead for additive manufacturing of metals. 8-A high temperature drop-ondemand droplet generator for metallic melts. 9-Effect of process parameters on copper droplet ejecting by pneumatic drop-on-demand technology. 10-Simulation on deposition and solidification processes of 7075 Al alloy droplets in 3D printing technology. 11-Advances in Magnetohydrodynamic Liquid Metal Jet Printing. 12-Theoretical and experimental study of MHD (magnetohydrodynamic) micropump. 13-Magnetohydrodynamic Pump Work Simulation. 14-Embedded magnetohydrodynamic liquid metal thermal transport: validated analysis and design optimization. 15-Investigation of the movement of the conductive liquid substance to identify the performance of the electromagnetic micropump. 16-Fabrication of solder balls via electromagnetic jetting. 17-Drop-on-demand electromagnetic printing of metallic droplets. 18-A study of ejection modes for pulsed-DC electrohydrodynamic inkjet printing.

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Magnetohydrodynamic Pump Work Simulation

Cited by 2 publications

References 3 publications

Review of Marine Magnetohydrodynamic Motor Development

Review of Marine Magnetohydrodynamic Motor Development

Experimental and Numerical Analysis of Discontinuous Flow of Molten Sn in an Electromagnetic Pump and Investigation of Effective Parameters on Flow Geometry

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