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Lecture
Inkjet Printing: Technologies and Droplet Formation
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Related lectures (28)
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Inkjet Printing: Drop Generation
Covers the history and methods of inkjet printing, drop generation, surface tension, drop sizes, and inkjet printing techniques.
Printing Techniques: Resolution, Speed, and Viscosity Trade-offs
Explores trade-offs in printing techniques, pattern fidelity, fluid flow, inkjet technologies, and droplet formation.
Physics and Technology of Printing: Part I
Explores the physics and technology of printing processes, including advantages, trade-offs, various printing methods, and ink design considerations.
Fluidic Considerations: Inkjet Printing Technologies
Explores fluidic aspects of inkjet printing, including viscosity, Reynolds number, and major inkjet technologies.
Conservation of Momentum in Nozzle Flow
Introduces the conservation of momentum in nozzle flow, deriving an equation resembling the inviscid Navier-Stokes equations.
Inviscid Flows: Understanding Fluid Dynamics
Explores inviscid flows, Reynolds number importance, linear deformations, and volume change in fluid dynamics.
Restitution / Dithering
Explores image restitution, color reproduction, printer technologies, electronic paper, and dithering methods.
3D Printing Resolution: Techniques and Applications
Explores high-resolution 3D printing techniques, including two-photon polymerization and holographic printing, for creating complex structures with submicrometer precision.
Drop Generation and Surface Interaction
Explores drop generation, surface interaction, film forming, surface energy, drop spacing, and drying behavior on substrates.
Viscous Beads Flowing Down a Vertical Fibre
Delves into the dynamics of fluid flowing down a vertical fibre, forming droplets under gravity and exhibiting various flow regimes.
