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Rheology, defined as the science of deformation and flow of matter, is a multidisciplinary scientific field, covering both fundamental and applied approaches. The study of rheology includes both experimental and computational methods, which are not mutually exclusive. Its practical importance embraces many processes, from daily life, like preparing mayonnaise or spread an ointment or shampooing, to industrial processes like polymer processing and oil extraction, among several others. Practical applications include also formulations and product development. This Special Issue aims to present the latest advances in the fields of experimental and computational rheology applied to the most diverse classes of materials (foods, cosmetics, pharmaceuticals, polymers and biopolymers, multiphasic systems and composites) and processes. This Special Issue will comprise, not only original research papers, but also review articles.
n/a --- microstructure --- microfluidization --- yield stress --- nonlinear diffusion equation --- particle suspensions --- colloids --- viscous gravity spreading --- nanocomposites --- BMP model --- LCB polypropylene --- diutan gum --- thixotropy --- complex fluids --- traction test --- viscoelasticity --- biopolymer --- normal stresses --- start-up shear --- OpenFOAM --- flow properties --- rheometry --- oscillatory flows --- linear viscoelasticity --- continuum model --- steady-state and transient flow --- interfacial shear rheology --- shear-banding flow --- pressure transducers --- jetting --- natural hydraulic lime --- generalized Boussinesq equation --- prototyping --- piezoelectric --- masonry --- polymer processing --- eco-friendly surfactant --- emulsion stability --- rhamsan gum --- lubricating grease --- computational rheology --- Saffman–Taylor instability --- extrusion --- volume of fluid method --- polymers --- weak gel --- cement pastes --- Carbopol --- thyme oil --- elongational flow --- rheology --- grout --- epoxy --- polystyrene --- shear thickening --- bulk rheology --- porous medium equation --- consolidation --- Dupuit-Forchheimer assumption --- yield stress fluid --- drop formation --- dilatational rheology --- droplet size distribution (DSD) --- Navier-Stokes equations --- Saffman-Taylor instability
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This book covers the latest developments in the field of rheology and polymer processing, highlighting cutting-edge research focusing on the processing of advanced polymers and their composites. It demonstrates that the field of rheology and polymer processing is still gaining increased attention. Presented within are cutting-edge research results and the latest developments in the field of polymer science and engineering, innovations in the processing and characterization of biopolymers and polymer-based products, polymer physics, composites, modeling and simulations, and rheology.
Technology: general issues --- Chemical engineering --- polypropylene --- foam-extrusion --- morphology --- foaming --- crystallization kinetics --- side chain liquid crystal polymer --- magnesium hydroxide --- low density polyethylene --- toughness --- processability --- thermoplastic vulcanizates --- compression set --- carbon fiber reinforced polycarbonate composites --- hydrothermal aging --- solid particle erosion --- mechanical property --- micro-/nano-layer coextrusion --- multilayer films --- multiscale structure --- dielectric properties --- thermoforming --- PMSQ–HDPE --- viscoelastic --- experimental --- bubble inflation test --- DMA --- Christensen’s model --- FEM --- biopolymer --- Solanyl®, wood flour --- Lignocel®, lignocellulosic particles --- fuller method --- mechanical properties --- rheological characterization --- viscoelastic spinning --- draw resonance --- kinematic waves --- extensional deformation --- stability indicator --- Giesekus fluid --- polycaprolactone --- nano-hydroxylapatite --- 3D printing --- solution extrusion --- process optimization --- drug release --- recycling --- eco-design --- coextrusion --- multilayers --- micro-/nanolayered polymers --- interfacial phenomena --- multilayer coextrusion --- reactive melt processing --- water-assisted --- radical crosslinking --- peroxide initiators --- biopolymers --- poly(ε-caprolactone) --- rheology --- molecular architecture --- long-chain branching --- polybutylene succinate --- biodegradable --- size-exclusion chromatography --- shear rheology --- extensional rheology --- Cox-Merz rule --- high-viscosity HDPE materials --- extrusion --- modelling and simulation --- spray process --- FEP coating --- scratch behavior --- friction and wear resistance --- circular economy --- n/a --- PMSQ-HDPE --- Christensen's model
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