Multiscale contact homogenisation: a novel perspective through the method of multiscale virtual power
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Publication:6641932
DOI10.1016/j.cma.2024.117394MaRDI QIDQ6641932
Francisco M. Andrade Pires, Eduardo Alberto De Souza Neto, António M. Couto Carneiro
Publication date: 21 November 2024
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Friction in solid mechanics (74M10) Contact in solid mechanics (74M15) Mathematical modeling or simulation for problems pertaining to mechanics of deformable solids (74-10)
Cites Work
- Variational foundations and generalized unified theory of RVE-based multiscale models
- Cohesive surface model for fracture based on a two-scale formulation: computational implementation aspects
- Thermomechanical multiscale constitutive modeling: accounting for microstructural thermal effects
- Effective boundary condition at a rough surface starting from a slip condition
- Homogenization-based multiscale crack modelling: from micro-diffusive damage to macro-cracks
- A finite element framework for continua with boundary energies. II: The three-dimensional case
- Multi-scale approach for frictional contact of elastomers on rough rigid surfaces
- A finite element framework for continua with boundary energies. I: The two-dimensional case
- A multiscale contact homogenization technique for the modeling of third bodies in the contact interface
- Formulation and analysis of a three-dimensional finite element implementation for adhesive contact at the nanoscale
- Multiscale cohesive failure modeling of heterogeneous adhesives
- Micromechanics of contact and interphase layers.
- On boundary potential energies in deformational and configurational mechanics
- Computational inelasticity
- Effective boundary conditions for laminar flows over periodic rough boundaries
- Design of simple low order finite elements for large strain analysis of nearly incompressible solids
- A strategy for numerical testing of frictional laws with application to contact between soil and concrete
- A computational homogenization framework for soft elastohydrodynamic lubrication
- A truly variationally consistent and symmetric mortar-based contact formulation for finite deformation solid mechanics
- Multi-scale modelling of arterial tissue: linking networks of fibres to continua
- An implicit 3D corotational formulation for frictional contact dynamics of beams against rigid surfaces using discrete signed distance fields
- Numerical homogenization of cracking processes in thin fibre-epoxy layers
- Formulation and numerical implementation of a variationally consistent multi-scale model based on second-order computational homogenisation at finite strains for quasi-static problems
- Micro-to-macro transition accounting for general imperfect interfaces
- Failure-oriented multi-scale variational formulation: micro-structures with nucleation and evolution of softening bands
- Elastic properties of reinforced solids: Some theoretical principles
- Multiscale FEM approach for hysteresis friction of rubber on rough surfaces
- Continuum approach to computational multiscale modeling of propagating fracture
- Computational homogenization for multiscale crack modeling. Implementational and computational aspects
- A two-scale failure model for heterogeneous materials: numerical implementation based on the finite element method
- Multiscale thermomechanical contact: Computational homogenization with isogeometric analysis
- Computational homogenization of soft matter friction: Isogeometric framework and elastic boundary layers
- Hierarchically parallel coupled finite strain multiscale solver for modeling heterogeneous layers
- Inelastic analysis of granular interfaces via computational contact homogenization
- Coupled multi-scale cohesive modeling of failure in heterogeneous adhesives
- Variationally consistent discretization schemes and numerical algorithms for contact problems
- Computational homogenization for adhesive and cohesive failure in quasi‐brittle solids
- Thermal contact conductance characterization via computational contact homogenization: A finite deformation theory framework
- Boundary layer tails in periodic homogenization
- Numerical derivation of contact mechanics interface laws using a finite element approach for large 3D deformation
- Multi‐scale constitutive modelling of heterogeneous materials with a gradient‐enhanced computational homogenization scheme
- Homogenization of contact problem with Coulomb's friction on periodic cracks
- Novel multiscale models in a multicontinuum approach to divide and conquer strategies
- Second-order multi-scale modelling of natural and architected materials in the presence of voids: formulation and numerical implementation
- Effective boundary conditions at a rough wall: a high-order homogenization approach
- On computational homogenization of microscale crack propagation
- Multiscale formulation for materials composed by a saturated porous matrix and solid inclusions
- A second-order multiscale model for finite-strain poromechanics based on the method of multiscale virtual power
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