Advances in modelling saturated soft biological tissues and chemically active gels
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Publication:363082
DOI10.1007/s00419-009-0386-yzbMath1271.74317OpenAlexW2049333128MaRDI QIDQ363082
Ayhan Acartürk, Wolfgang Ehlers, Nils Karajan
Publication date: 30 August 2013
Published in: Archive of Applied Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00419-009-0386-y
soft biological tissuebiomechanicscoupled problemsswellingelectro-active polymertheory of porous media (TPM)
Biomechanics (92C10) Biomechanical solid mechanics (74L15) Mixture effects in solid mechanics (74F20) Chemical and reactive effects in solid mechanics (74F25)
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Uses Software
Cites Work
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- Deformation and localization analysis of partially saturated soil
- Incompressible porous media models by use of the theory of mixtures
- Compressible porous media models by use of the theory of mixtures
- Effects of fixed charges on the stress-relaxation behavior of hydrated soft tissues in a confined compression problem
- Quadriphasic mechanics of swelling incompressible porous media
- A validation of the quadriphasic mixture theory for intervertebral disc tissue
- Nitsche's method for coupling non-matching meshes in fluid-structure vibration problems
- Mixed finite element modelling of cartilaginous tissues
- Non-linear finite element analysis of mechanical electrochemical phenomena in hydrated soft tissues based on triphasic theory
- Mixed and Hybrid Finite Element Methods
- A mixed finite element formulation of triphasic mechano-electrochemical theory for charged, hydrated biological soft tissues
- 3D FE implementation of an incompressible quadriphasic mixture model
- On discontinuous Galerkin methods
- Effects of Holistic Nursing Course
- A Continuum Approach for the Swelling of Charged Hydrated Media
- Triphasic finite element model for swelling porous media
- Finite element methods for flow problems with moving boundaries and interfaces
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