Finite element methods for director fields on flexible surfaces | Zendy

Sören Bartels | Zendy; Georg Dolzmann | Zendy; Ricardo H. Nochetto | Zendy; Alexander Raisch | Zendy

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Finite element methods for director fields on flexible surfaces

Author(s) -

Sören Bartels,

Georg Dolzmann,

Ricardo H. Nochetto,

Alexander Raisch

Publication year - 2012

Publication title -

interfaces and free boundaries mathematical analysis computation and applications

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.964

H-Index - 39

eISSN - 1463-9971

pISSN - 1463-9963

DOI - 10.4171/ifb/281

Subject(s) - finite element method , element (criminal law) , mechanical engineering , computer science , engineering , structural engineering , political science , law

We introduce a nonlinear model for the evolution of biomembranes driven by the L2-gradient flow of a novel elasticity functional describing the interaction of a director field on a membrane with its curvature. In the linearized setting of a graph we present a practical finite element method (FEM), and prove a priori estimates. We derive the relaxation dynamics for the nonlinear model on closed surfaces and introduce a parametric FEM. We present numerical experiments for both linear and nonlinear models, which agree well with the expected behavior in simple situations and allow predictions beyond theory

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