Mathematical micromodeling of infilled frames: state of the art
The in-plane contribution of infill walls on the structural response of infilled frame structures
is an important problem and many research initiatives, via experimental and numerical …
is an important problem and many research initiatives, via experimental and numerical …
A review of continuum damage and plasticity in concrete: Part I–Theoretical framework
In the past few decades, extensive research on concrete modeling to predict behavior, crack
propagation, microcrack coalescence by utilizing different approaches (fracture mechanics …
propagation, microcrack coalescence by utilizing different approaches (fracture mechanics …
A plastic‐damage concrete model for earthquake analysis of dams
A new plastic‐damage constitutive model for cyclic loading of concrete has been developed
for the earthquake analysis of concrete dams. The rate‐independent model consistently …
for the earthquake analysis of concrete dams. The rate‐independent model consistently …
[HTML][HTML] An energy release rate-based plastic-damage model for concrete
A new plastic-damage constitutive model for concrete is proposed in this paper. A tensile
and a shear damage variable are adopted to describe the degradation of the …
and a shear damage variable are adopted to describe the degradation of the …
A strain-based plastic viscous-damage model for massive concrete structures
Within the framework of continuum damage mechanics, a new constitutive damage model
for massive concrete is presented, mainly intended for the seismic analysis of gravity and …
for massive concrete is presented, mainly intended for the seismic analysis of gravity and …
Effects of near-fault and far-fault ground motions on nonlinear dynamic response and seismic damage of concrete gravity dams
S Zhang, G Wang - Soil Dynamics and Earthquake Engineering, 2013 - Elsevier
As the forward directivity and fling effect characteristics of the near-fault ground motions,
seismic response of structures in the near field of a rupturing fault can be significantly …
seismic response of structures in the near field of a rupturing fault can be significantly …
An orthotropic damage model for the analysis of masonry structures
This paper presents a numerical model for nonlinear analysis of masonry structural
elements based on Continuum Damage Mechanics. The material is described at the macro …
elements based on Continuum Damage Mechanics. The material is described at the macro …
Nonlinear modelling of the seismic response of masonry structures: calibration strategies
AM D'Altri, F Cannizzaro, M Petracca… - Bulletin of Earthquake …, 2022 - Springer
In this paper, a simple and practitioners-friendly calibration strategy to consistently link target
panel-scale mechanical properties (that can be found in national standards) to model …
panel-scale mechanical properties (that can be found in national standards) to model …
A multiscale method coupling peridynamic and boundary element models for dynamic problems
X Chen, H Yu - Computer Methods in Applied Mechanics and …, 2022 - Elsevier
A novel multiscale method coupling peridynamics (PD) and boundary element method
(BEM) is proposed for dynamic problems. In the coupling model, the discontinuous …
(BEM) is proposed for dynamic problems. In the coupling model, the discontinuous …
A micromechanics-based variational phase-field model for fracture in geomaterials with brittle-tensile and compressive-ductile behavior
This paper presents a framework for modeling failure in quasi-brittle geomaterials under
different loading conditions. A micromechanics-based model is proposed in which the field …
different loading conditions. A micromechanics-based model is proposed in which the field …