Advances in Experimental and Computational Rheology, Volume II
Advances in Experimental and Computational Rheology, Volume II
English[eng]
graphene oxide||polyethylene glycol||rheological characterization||human milk||tube feeding||breastfeeding||viscosity||complex modulus||density||rheological measurements||non-viscometric geometries||Couette analogy||shear thinning fluids||suspensions||bread||whey||complex fluids||experimental rheology||breadmaking||yield stress||grout||polypropylene fiber||masonry||consolidation||rheology||drop impact||elasto-viscoplastic material||free surface||gravitational effects||MRSA||S. aureus||antibiotics||oxacillin||bactericidal||injection molding||filling stage||Cross-WLF model||Tait model||finite volume method||openInjMoldSim||OpenFOAM®||Boger fluids||circular contraction flow||lip vortex||pressure-drops||vortex-enhancement||first normal-stress difference||swIM model||reactive extrusion||data-driven||machine learning||artificial engineering||polymer processing||digital twin||n/a
English[eng]
graphene oxide||polyethylene glycol||rheological characterization||human milk||tube feeding||breastfeeding||viscosity||complex modulus||density||rheological measurements||non-viscometric geometries||Couette analogy||shear thinning fluids||suspensions||bread||whey||complex fluids||experimental rheology||breadmaking||yield stress||grout||polypropylene fiber||masonry||consolidation||rheology||drop impact||elasto-viscoplastic material||free surface||gravitational effects||MRSA||S. aureus||antibiotics||oxacillin||bactericidal||injection molding||filling stage||Cross-WLF model||Tait model||finite volume method||openInjMoldSim||OpenFOAM®||Boger fluids||circular contraction flow||lip vortex||pressure-drops||vortex-enhancement||first normal-stress difference||swIM model||reactive extrusion||data-driven||machine learning||artificial engineering||polymer processing||digital twin||n/a