Micromorphic homogenization of a porous medium: elastic behavior and quasi-brittle damage
From MaRDI portal
Publication:2629062
DOI10.1007/s00161-014-0402-5zbMath1341.74141OpenAlexW2094588297MaRDI QIDQ2629062
Geralf Hütter, Uwe Mühlich, Meinhard Kuna
Publication date: 19 July 2016
Published in: Continuum Mechanics and Thermodynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00161-014-0402-5
Classical linear elasticity (74B05) Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Theories of fracture and damage (74A45) Homogenization in equilibrium problems of solid mechanics (74Q05) Brittle damage (74R05)
Related Items (9)
Material combinations and parametric study of thermal and mechanical performance of pyramidal core sandwich panels used for hypersonic aircrafts ⋮ Chiral Cosserat homogenized constitutive models of architected media based on micromorphic homogenization ⋮ A micromorphic filter for determining stress and deformation measures from direct numerical simulations of lower length scale behavior ⋮ Finite-deformation second-order micromorphic theory and its relations to strain and stress gradient models ⋮ Localizing gradient damage model with micro inertia effect for dynamic fracture ⋮ Experimental study of elastic constants of a dense foam with weak Cosserat coupling ⋮ Microdamage modelling of crack initiation and propagation in FCC single crystals under complex loading conditions ⋮ Analytical solution of the cylindrical torsion problem for the relaxed micromorphic continuum and other generalized continua (including full derivations) ⋮ Multiscale numerical strategy for micromorphic description of quasi-brittle media from classical elastic damage models at the microscale
Cites Work
- Unnamed Item
- Estimation of material properties for linear elastic strain gradient effective media
- Minimal loading conditions for higher-order numerical homogenisation schemes. Cauchy, second gradient and micromorphic substitute media.
- A first-order strain gradient damage model for simulating quasi-brittle failure in porous elastic solids
- Two-scale modelling of micromorphic continua. A numerical homogenization scheme
- Establishment of strain gradient constitutive relations by homogenization
- Size effects in two-dimensional Voronoi foams: A comparison between generalized continua and discrete models
- Nonlinear microstrain theories
- Constitutive equations for porous plane-strain gradient elasticity obtained by homogenization
- Nonlocal models for damage and fracture: Comparison of approaches
- Strain-based transient-gradient damage model for failure analyses
- From continuous to discontinuous failure in a gradient-enhanced continuum damage model.
- Phenomenological nonlocal approaches based on implicit gradient-enhanced damage
- The influence of void size on the micropolar constitutive properties of model heterogeneous materials
- The physics of plastic deformation
- A micromechanical approach of nonlocal modeling for media with periodic microstructures
- Cosserat overall modeling of heterogeneous materials
- The role of interfaces in enhancing the yield strength of composites and polycrystals
- Nonlinear theory of simple micro-elastic solids. I
- Strain gradient plasticity modeling and finite element simulation of Lüders band formation and propagation
- Generalized continua and non-homogeneous boundary conditions in homogenisation methods
- Mechanics of Solid Materials
- Homogenization methods and mechanics of generalized continua - part 2
- The Method of Virtual Power in Continuum Mechanics. Part 2: Microstructure
This page was built for publication: Micromorphic homogenization of a porous medium: elastic behavior and quasi-brittle damage
