Movies. Reverse chronological order.
Unbounded, Newtonian drop in Stokes flow Ca=0.46, Re=0.1, Mesh a/8, Dt=0.0005. Ca=0.4, mesh a/12, Dt=0.00025.
Unbounded Re=0.1, Newtonian drop in viscoelastic matrix
We_m=0.2,Ca=0.45, Mesh a/12, Dt=0.00025.
We_m=0.2,Ca=0.47, Mesh a/12, Dt=0.00025.
We_m=0.4, Ca=0.47, Mesh a/12, Dt=0.00025.
We_m=0.4, Ca=0.5, Mesh a/8, Dt=0.0005.
We_m=0.8, Ca=0.47, Mesh a/8, Dt=0.0005. Mesh a/12, Dt=0.00025.
Viscoelastic drop in Newtonian matrix. We_d=0.5, Ca=0.5, Mesh a/8, Dt=0.0005.
cf. Pillapakkam & Singh. We=0.4, Ca=0.6, VOF-CSF, Oldroyd-B drop, Newtonian matrix, equal viscosity. Rough mesh a/8.
cf. Pillapakkam & Singh. We=0.4, Ca=0.6, VOF-CSF, Newtonian drop, Oldroyd-B matrix, equal viscosity. Rough mesh a/8.
cf. Pillapakkam & Singh. We=0.4,Ca=0.3, VOF-CSF, Newtonian drop, Oldroyd-B matrix, equal viscosity. Rough mesh a/8.
S. Guido's C1-D2 pair, viscoelastic matrix. We=1.37, Ca=0.3. PROST
Drop impact. Movie by L. Duchemin. See Y. Renardy, S. Popinet, M. Renardy, S. Zaleski, C. Josserand, M. A. Drumright-Clarke, D. Richard, C. Clanet, D. Quere, Pyramidal and toroidal water drops after impact on a solid surface, J. Fluid Mech. 484 (2003), 69-83.
Re=60, Ca=0.054, just above critical.Re=60, Ca=0.053 just below critical.
Re=15, Ca= 0.196 1/96 mesh, 3 x 0.5 x 1 box, step back.
