Dual strategies for solving the Stokes problem with stick–slip boundary conditions in 3D

• Published in: Mathematics and computers in simulation Vol. 189; pp. 191 - 206
• Main Authors: Haslinger, Jaroslav, Kučera, Radek, Sassi, Taoufik, Šátek, Václav
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.11.2021
• Subjects: Interior-point method; Semi-smooth Newton method; Stick–slip boundary conditions; Stokes problem; Stick–slip boundary conditions; Semi-smooth Newton method; Stokes problem; Interior-point method
• ISSN: 0378-4754; 1872-7166
• DOI: 10.1016/j.matcom.2020.12.015

The paper deals with the numerical realization of the 3D Stokes flow subject to threshold slip boundary conditions. The weak velocity–pressure formulation leads to an inequality type problem that is approximated by a mixed finite element method. The resulting algebraic system is non-smooth. Besides the pressure, three additional Lagrange multipliers are introduced: the discrete normal stress releasing the impermeability condition and two discrete shear stresses regularizing the non-smooth slip term. Eliminating the discrete velocity component we obtain the minimization problem for the smooth functional, expressed in terms of the pressure, the normal, and the shear stresses. This problem is solved either by a path following variant of the interior point method or by the semi-smooth Newton method. Numerical scalability is illustrated by computational experiments.