Fundamentals of Inkjet Printing: The Science of Inkjet and Droplets
From droplet formation to final applications, this practical book presents the subject in a comprehensive and clear form, using only content derived from the latest published results.
Starting at the very beginning, the topic of fluid mechanics is explained, allowing for a suitable regime for printing inks to subsequently be selected. There then follows a discussion on different print-head types and how to form droplets, covering the behavior of droplets in flight and upon impact with the substrate, as well as the droplet's wetting and drying behavior at the substrate. Commonly observed effects, such as the coffee ring effect, are included as well as printing in the third dimension. The book concludes with a look at what the future holds. As a unique feature, worked examples both at the practical and simulation level, as well as case studies are included.
As a result, students and engineers in R&D will come to fully understand the complete process of inkjet printing.
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Fluid Mechanics for Inkjet Printing
Ronan Daly Stephen D Hoath
Department of Mathematics Océ Technologies
Drop Formation in Inkjet Printing
Polymers in Inkjet Printing
Colloid Particles in Ink Formulations
Visualization and Measurement
Soonchunhyang University University of Georgetown
Inkjet Fluid Characterization
University of Queensland Alfonso A CastrejónPita
Malcolm R Mackley Fuji Xerox Co Ltd
Applications in Inkjet Printing
Pembroke Street Kanagawa 2430494
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amplitude analysis applications axisymmetric behavior breakup bubble capillary coalescence colloidal components computational concentration contact angle contact line continuous inkjet crosstalk density deposited diameter dispersion drop formation drop impact drop spacing drop-on-demand droplet velocity drying dynamics effect energy equation evaporation example experimental filament flow force free surface frequency function geometry head droplet heat heater Hoath hysteresis increases ink channel inkjet fluids inkjet printing inkjet technology instability interactions layer linear meniscus mesh method mode molecular weight molecules Newtonian Newtonian fluids non-Newtonian fluids nozzle parameters particles perturbation phase Phys piezo piezoelectric pigment pinch-off polymer polymer solutions predict pressure printers printhead properties radius rheology second drop shear shear rate shear stress shown in Figure simulation solvent speed spreading stability substrate surface tension surfactant tail droplet techniques temperature thermal tion velocity viscoelastic viscosity volume Wiley-VCH Verlag 𝜂 𝜃 𝜌 𝜎 𝜏