Covariant description of contact interfaces considering anisotropy for adhesion and friction. I: Formulation and analysis of the computational model
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Publication:2459217
DOI10.1016/j.cma.2006.02.010zbMath1120.74662OpenAlexW1983710991MaRDI QIDQ2459217
Alexander Konyukhov, K. H. Schweizerhof
Publication date: 5 November 2007
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cma.2006.02.010
Anisotropy in solid mechanics (74E10) Friction in solid mechanics (74M10) Contact in solid mechanics (74M15) Finite element methods applied to problems in solid mechanics (74S05)
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Cites Work
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- A \(C^1\)-continuous formulation for 3D finite deformation frictional contact
- A theory of friction
- Mathematical descriptions of anisotropic friction
- A numerical model for thermomechanical contact based on microscopic interface laws
- An anisotropic friction and wear model
- On the constitutive modeling and finite element computation of rate-dependent frictional sliding in large deformations
- Convex analysis and nonlinear optimization. Theory and examples
- Covariant description for frictional contact problems
- Contact formulation via a velocity description allowing efficiency improvements in frictionless contact analysis
- A stochastic model of rough surfaces for finite element contact analysis
- A new algorithm for numerical solution of 3D elastoplastic contact problems with orthotropic friction law
- Simulating anisotropic frictional response using smoothly interpolated traction fields
- An approach to nonlinear programming
- Statistical model of strongly anisotropic rough surfaces for finite element contact analysis
- Smooth C1‐interpolations for two‐dimensional frictional contact problems
- The statistical analysis of a random, moving surface
- Finite element formulation of large deformation impact-contact problems with friction
- Two-dimensional properties of random surfaces
- Computational model for 3‐D contact problems with friction based on the penalty method
- The return mapping method for the integration of friction constitutive relations
- Application of augmented Lagrangian techniques for non‐linear constitutive laws in contact interfaces
- A continuum‐based finite element formulation for the implicit solution of multibody, large deformation‐frictional contact problems
- Rate-dependent projection operators for frictional contact constraints
- Numerical derivation of contact mechanics interface laws using a finite element approach for large 3D deformation
- Three‐dimensional finite element computations for frictional contact problems with non‐associated sliding rule
