Continuous and Discontinuous Modelling of Fracture in Concrete Using FEM (Springer Series in Geomechanics and Geoengineering)
معرفی کتاب «Continuous and Discontinuous Modelling of Fracture in Concrete Using FEM (Springer Series in Geomechanics and Geoengineering)» نوشتهٔ Jacek Tejchman, Jerzy Bobiński (auth.)، منتشرشده توسط نشر Springer-Verlag Berlin Heidelberg در سال 2013. این کتاب در 9 صفحه، فرمت pdf، زبان انگلیسی ارائه شده است.
Annotation The book analyzes a quasi-static fracture process in concrete and reinforced concrete by means of constitutive models formulated within continuum mechanics. A continuous and discontinuous modelling approach was used. Using a continuous approach, numerical analyses were performed using a finite element method and four different enhanced continuum models: isotropic elasto-plastic, isotropic damage and anisotropic smeared crack one. The models were equipped with a characteristic length of micro-structure by means of a non-local and a second-gradient theory. So they could properly describe the formation of localized zones with a certain thickness and spacing and a related deterministic size effect. Using a discontinuous FE approach, numerical results of cracks using a cohesive crack model and XFEM were presented which were also properly regularized. Finite element analyses were performed with concrete elements under monotonic uniaxial compression, uniaxial tension, bending and shear-extension. Concrete beams under cyclic loading were also simulated using a coupled elasto-plastic-damage approach. Numerical simulations were performed at macro- and meso-level of concrete. A stochastic and deterministic size effect was carefully investigated. In the case of reinforced concrete specimens, FE calculations were carried out with bars, slender and short beams, columns, corbels and tanks. Tensile and shear failure mechanisms were studied. Numerical results were compared with results from corresponding own and known in the scientific literature laboratory and full-scale tests The book analyzes a quasi-static fracture process in concrete and reinforced concrete by means of constitutive models formulated within continuum mechanics. A continuous and discontinuous modelling approach was used. Using a continuous approach, numerical analyses were performed using a finite element method and three different enhanced continuum models: isotropic elasto-plastic, isotropic damage and anisotropic smeared crack one. The models were equipped with a characteristic length of micro-structure by means of a non-local and a second-gradient theory. So they could properly describe the formation of localized zones with a certain thickness and spacing and a related deterministic size effect. Using a discontinuous FE approach, numerical results of cracks using a cohesive crack model and XFEM were presented which were also properly regularized. Finite element analyses were performed with concrete elements under monotonic uniaxial compression, uniaxial tension, bending and shear-extension. Concrete beams under cyclic loading were also simulated using a coupled elasto-plastic-damage approach. Numerical simulations were performed at macro- and meso-level of concrete. A stochastic and deterministic size effect was carefully investigated. In the case of reinforced concrete specimens, FE calculations were carried out with bars, slender and short beams, columns, corbels and tanks. Tensile and shear failure mechanisms were studied. Numerical results were compared with results from corresponding own and known in the scientific literature laboratory and full-scale tests. Front Matter....Pages 1-5 Introduction....Pages 1-4 Concrete and Reinforced Concrete Behaviour....Pages 5-47 Continuous Approach to Concrete....Pages 49-93 Discontinuous Approach to Concrete....Pages 95-107 Continuous and Discontinuous Modelling of Fracture in Plain Concrete under Monotonic Loading....Pages 109-162 Continuous Modelling of Fracture in Plain Concrete under Cyclic Loading....Pages 163-182 Modelling of Fracture in Reinforced Concrete under Monotonic Loading....Pages 183-296 Deterministic and Statistical Size Effect in Plain Concrete....Pages 297-341 Mesoscopic Modelling of Strain Localization in Plain Concrete....Pages 343-405 Final Conclusions and Future Research Directions....Pages 407-412 Back Matter....Pages 0--1
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