This article presents a comprehensive review of numerical methods and models for interface
resolving simulations of multiphase flows in microfluidics and micro process engineering …

Computational methods have been extended recently to allow for the presence of moving
contact lines in simulated two-phase flows. The predictive capability offered by these …

Phase-field modeling is an effective but computationally expensive method for capturing the
mesoscale morphological and microstructure evolution in materials. Hence, fast and …

Polymeric materials display distinguished characteristics which stem from the interplay of
phenomena at various length and time scales. Further development of polymer systems …

Diffuse-interface models may be used to compute moving contact lines because the Cahn–
Hilliard diffusion regularizes the singularity at the contact line. This paper investigates the …

Asphalts used in the construction of pavements exhibit unique properties at the micron and
nanometre scale. Atomic force microscopy (AFM) images of asphalts and asphalt …

Coalescing drops spontaneously jump out of plane on a variety of biological and synthetic
superhydrophobic surfaces, with potential applications ranging from self-cleaning materials …

Despite several decades long research on moving contact line dynamics due to its
remarkable role in interfacial science and technological fields, there is still a significant lack …

In this study, a phase-field model is developed to simulate the microstructure morphology
evolution that occurs during solid electrolyte interphase (SEI) growth. Compared with other …

An immersed boundary-lattice Boltzmann method (IB-LBM) for fluid-structure interaction
(FSI) problems involving viscoelastic fluids and complex geometries is presented in this …