Fluid–fluid interfaces, laden with polymers, particles or other surface-active moieties, often
show a rheologically complex response to deformations, in particular when strong lateral …

The interaction between thin structures and incompressible Newtonian fluids is ubiquitous
both in nature and in industrial applications. In this paper we present an isogeometric …

This paper deals with the discrete counterpart of 2D elliptic model problems rewritten in
terms of Boundary Integral Equations. The study is done within the framework of …

The isogeometric formulation of the boundary element method (IgA‐BEM) is investigated
within the adaptivity framework. Suitable weighted quadrature rules to evaluate integrals …

We propose a gradient-based optimisation framework to design the shape of the interfaces
in periodic layered structures, which can model photovoltaic devices, optical gratings, etc …

We develop an algorithm for the three dimensional simulation of the dynamics of soft objects
(drops, capsules, vesicles) under cree** flow conditions. Loop elements are used to …

A three-dimensional isogeometric coupled boundary element and finite element approach
based on analysis suitable T-splines is developed for the simulation of deformable capsules …

An in-house numerical model is extended to study the resonant Faraday waves at the
interface between two immiscible liquids with the consideration of surface tension. The …

We propose a numerical framework tailored for simulating the dynamics of vesicles with
inextensible membranes, which mimic red blood cells, immersed in a non‐Newtonian fluid …

We present a numerical methodology for the simulation of a viscous drop under simple
shear flows by using the boundary integral method. The present work treats only a single …