Long-term behavior of composite concrete girders made continuous
Апстракт
Time-dependent effects play an important role in the design process of concrete structures. In order to predict time-dependant effects in concrete structures, engineers need reliable data for creep and shrinkage properties of concrete and analytical procedures to account for these effects. Various researches all over the world develop many software applications in order to calculate these effects. These applications accounts for various kind of concrete nonlinearity. In the case of long-term structural behavior viscous properties are of interest. Benefits of powerful programs in relate to simplified methods (from Dishinger's method to AAEM) lies in numerical integration of basic Voltera integral equation, that describes linear creep low, with step-bystep procedure. Programs are usually verified by comparing calculated results with the measured values of experimental test results. In this paper numerical simulation of the several experimental long-term investigations of composite concre...te beam made continuous, using nonlinear FEM model of DIANA application is presented. Since the analytical results appear to be quite sensitive to material properties, some comparisons are made, using several proposals for creep and shrinkage properties of concrete. Comparisons of estimated results by DIANA and some simplified methods for the same material properties are made as well.
Кључне речи:
Composite concrete beams / Construction methods / Creep / Nonlinear analysis / ShrinkageИзвор:
3rd International fib Congress and Exhibition, Incorporating the PCI Annual Convention and Bridge Co, 2010Издавач:
- Precast Prestressed Concrete Institute
Scopus: 2-s2.0-85013901238
Колекције
Институција/група
GraFarTY - CONF AU - Mašović, Snežana AU - Stošić, Saša PY - 2010 UR - https://grafar.grf.bg.ac.rs/handle/123456789/325 AB - Time-dependent effects play an important role in the design process of concrete structures. In order to predict time-dependant effects in concrete structures, engineers need reliable data for creep and shrinkage properties of concrete and analytical procedures to account for these effects. Various researches all over the world develop many software applications in order to calculate these effects. These applications accounts for various kind of concrete nonlinearity. In the case of long-term structural behavior viscous properties are of interest. Benefits of powerful programs in relate to simplified methods (from Dishinger's method to AAEM) lies in numerical integration of basic Voltera integral equation, that describes linear creep low, with step-bystep procedure. Programs are usually verified by comparing calculated results with the measured values of experimental test results. In this paper numerical simulation of the several experimental long-term investigations of composite concrete beam made continuous, using nonlinear FEM model of DIANA application is presented. Since the analytical results appear to be quite sensitive to material properties, some comparisons are made, using several proposals for creep and shrinkage properties of concrete. Comparisons of estimated results by DIANA and some simplified methods for the same material properties are made as well. PB - Precast Prestressed Concrete Institute C3 - 3rd International fib Congress and Exhibition, Incorporating the PCI Annual Convention and Bridge Co T1 - Long-term behavior of composite concrete girders made continuous UR - https://hdl.handle.net/21.15107/rcub_grafar_325 ER -
@conference{ author = "Mašović, Snežana and Stošić, Saša", year = "2010", abstract = "Time-dependent effects play an important role in the design process of concrete structures. In order to predict time-dependant effects in concrete structures, engineers need reliable data for creep and shrinkage properties of concrete and analytical procedures to account for these effects. Various researches all over the world develop many software applications in order to calculate these effects. These applications accounts for various kind of concrete nonlinearity. In the case of long-term structural behavior viscous properties are of interest. Benefits of powerful programs in relate to simplified methods (from Dishinger's method to AAEM) lies in numerical integration of basic Voltera integral equation, that describes linear creep low, with step-bystep procedure. Programs are usually verified by comparing calculated results with the measured values of experimental test results. In this paper numerical simulation of the several experimental long-term investigations of composite concrete beam made continuous, using nonlinear FEM model of DIANA application is presented. Since the analytical results appear to be quite sensitive to material properties, some comparisons are made, using several proposals for creep and shrinkage properties of concrete. Comparisons of estimated results by DIANA and some simplified methods for the same material properties are made as well.", publisher = "Precast Prestressed Concrete Institute", journal = "3rd International fib Congress and Exhibition, Incorporating the PCI Annual Convention and Bridge Co", title = "Long-term behavior of composite concrete girders made continuous", url = "https://hdl.handle.net/21.15107/rcub_grafar_325" }
Mašović, S.,& Stošić, S.. (2010). Long-term behavior of composite concrete girders made continuous. in 3rd International fib Congress and Exhibition, Incorporating the PCI Annual Convention and Bridge Co Precast Prestressed Concrete Institute.. https://hdl.handle.net/21.15107/rcub_grafar_325
Mašović S, Stošić S. Long-term behavior of composite concrete girders made continuous. in 3rd International fib Congress and Exhibition, Incorporating the PCI Annual Convention and Bridge Co. 2010;. https://hdl.handle.net/21.15107/rcub_grafar_325 .
Mašović, Snežana, Stošić, Saša, "Long-term behavior of composite concrete girders made continuous" in 3rd International fib Congress and Exhibition, Incorporating the PCI Annual Convention and Bridge Co (2010), https://hdl.handle.net/21.15107/rcub_grafar_325 .