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Fracture process zone and energy dissipation during fracture of quassi-brittle materials
Klon, Jiří ; Seitl, Stanislav (referee) ; Veselý, Václav (advisor)
The work is focused on the comparison of selected fracture properties of quasi-brittle materials, particularly concrete, determined from results from tests on specimens of different sizes and notch lengths. The first part deals with the study of selected plasticity (failure) criteria and their testing within the mathematical package (MathCAD) for their later intended implementation in a program for estimation of the size and shape of the fracture process zone. Next part is devoted to numerical simulations of three-point bending test of notched beams. These simulations were performed using the ATENA FEM software. Results of the simulations are evaluated using fracture models; this thesis presents values of fracture parameters quantifying the amount of energy dissipated in the fracture process zone.
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Modeling of fracture process in quasi-brittle materials
Klon, Jiří ; Eliáš, Jan (referee) ; Veselý, Václav (advisor)
This work is focused on the evaluation of the selected fracture parameters of quasi-brittle material, especially concrete, and an assessment of their dependence on the size and shape of the fracture process zone developing at the tip of the macroscopic crack during fracture. For this purpose, experimentally obtained loading diagrams published in the scientific literature have been utilized. These diagrams have been processed into a form enabling creation and calibration of numerical models of these tests in the ATENA FEM program. The results obtained from simulations of the three-point bending tests on beams of four sizes, with three notches lengths, using the created numerical models were used for determination of fracture parameters of concrete. Results of the work consist of the determined values of the specific energy dissipated for creation of new surfaces of the effective crack and an estimation of the specific energy dissipated in the volume of the fracture process zone, which exhibits specific parameters for each beam size and notch length.
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Modeling of fracture process in quasi-brittle materials
Klon, Jiří ; Eliáš, Jan (referee) ; Veselý, Václav (advisor)
This work is focused on the evaluation of the selected fracture parameters of quasi-brittle material, especially concrete, and an assessment of their dependence on the size and shape of the fracture process zone developing at the tip of the macroscopic crack during fracture. For this purpose, experimentally obtained loading diagrams published in the scientific literature have been utilized. These diagrams have been processed into a form enabling creation and calibration of numerical models of these tests in the ATENA FEM program. The results obtained from simulations of the three-point bending tests on beams of four sizes, with three notches lengths, using the created numerical models were used for determination of fracture parameters of concrete. Results of the work consist of the determined values of the specific energy dissipated for creation of new surfaces of the effective crack and an estimation of the specific energy dissipated in the volume of the fracture process zone, which exhibits specific parameters for each beam size and notch length.
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Fracture process zone and energy dissipation during fracture of quassi-brittle materials
Klon, Jiří ; Seitl, Stanislav (referee) ; Veselý, Václav (advisor)
The work is focused on the comparison of selected fracture properties of quasi-brittle materials, particularly concrete, determined from results from tests on specimens of different sizes and notch lengths. The first part deals with the study of selected plasticity (failure) criteria and their testing within the mathematical package (MathCAD) for their later intended implementation in a program for estimation of the size and shape of the fracture process zone. Next part is devoted to numerical simulations of three-point bending test of notched beams. These simulations were performed using the ATENA FEM software. Results of the simulations are evaluated using fracture models; this thesis presents values of fracture parameters quantifying the amount of energy dissipated in the fracture process zone.
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