Post_tensioned_Concrete_Presentation_Expanded.pptx
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Jun 26, 2024
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About This Presentation
An easy slideshow on post—tensioned concrete
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Modelling of the Behavior of Post-Tensioned Concrete Structures Subjected to Long-Term Thermal Loads Fernando Medina Reguera, Héctor Cifuentes Bulté, Fernando Medina Encina Third International Conference on Mechanical Models in Structural Engineering University of Seville, June 24-26, 2015
Introduction - Post-tensioned concrete structures are widely used in engineering. - High temperature affects concrete strength, deformations, and stress levels. - Objective: Develop a model to evaluate the coupled effects of temperature on post-tensioned concrete.
Effects of Temperature on Concrete - High temperatures reduce compressive and tensile strength. - Non-uniform temperature distribution causes differential thermal expansion. - Resulting thermal stress field can lead to unexpected cracking and larger global displacements.
Temperature Dependent Parameters - Tensile Strength: \( f_{ctm}(T) \) - Compressive Strength: \( f_{cm}(T) \) - Modulus of Elasticity: \( E(T) \) - Fracture Energy: \( G_{f}(T) \) References: [1], [2]
Uniaxial Behavior Characterization - Stress-strain relationship for concrete in tension and compression. - Pre-peak and post-peak behavior. - Sensitivity to strain softening and damage parameters.
Fracture Mechanics Approach - Fracture energy: \( G_f(T) \) - Crack propagation modeling - Temperature effects on crack growth
Material Model for Steel - Steel reinforcement behavior under temperature variations - Yield strength \( f_y(T) \) - Modulus of elasticity \( E_s(T) \)
Uniaxial Behavior Temperature Dependency - Experimental data on temperature effects - Stress-strain curves at various temperatures - Calibration of the model parameters
Geometrical Description - Description of the concrete specimen - Dimensions and boundary conditions - Loading conditions
Pre-Design Assumptions - Initial assumptions for material properties - Design criteria and safety factors - Environmental conditions considered
Post-Tensioning Details - Post-tensioning force application - Tendon layout and profile - Anchorage and stressing sequence
Model Setup and Simulation - Finite element model setup - Mesh generation and refinement - Simulation parameters
Impact of Temperature on Post-Tensioning Force - Variation of post-tensioning force with temperature - Analysis of force loss and redistribution - Temperature profiles considered
Damage and Cracking Analysis - Identification of damage zones - Crack initiation and propagation - Comparison with experimental data
Stress-Strain Relationships at Different Temperatures - Stress-strain curves from simulations - Comparison with experimental data - Interpretation of results
Conclusion - Summary of findings - Implications for design and optimization - Recommendations for future research
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