TY - GEN
T1 - Numerical modelling of RC dapped-end beams with different reinforcement layouts
AU - Laaksonen, Anssi
AU - Orlando, Maurizio
AU - Menichini, Giovanni
PY - 2025/6/17
Y1 - 2025/6/17
N2 - Dapped-end beams are widely used in bridge construction due to their structural efficiency and ease of assembly. These regions represent discontinuities, where assessing the stress state necessitates the use of Strut-and-Tie (S&T) models or nonlinear numerical analyses. This paper presents a numerical modelling study of dapped-end beams, validated against an experimental campaign conducted on specimens which differ in dimensions and reinforcement layout. The finite element analysis utilizes the latest formulations for material constitutive laws, focusing on 2D and 3D models and various approaches to modelling the interaction between concrete and reinforcing bars. The experimental data, which included load-displacement curves and failure modes, were compared with numerical results to assess the accuracy of each modelling approach. The study highlights the impact of using 2D versus 3D models and different reinforcement modelling approaches on the load-bearing capacity and crack patterns of beams, providing valuable insights into the most effective modelling strategies.
AB - Dapped-end beams are widely used in bridge construction due to their structural efficiency and ease of assembly. These regions represent discontinuities, where assessing the stress state necessitates the use of Strut-and-Tie (S&T) models or nonlinear numerical analyses. This paper presents a numerical modelling study of dapped-end beams, validated against an experimental campaign conducted on specimens which differ in dimensions and reinforcement layout. The finite element analysis utilizes the latest formulations for material constitutive laws, focusing on 2D and 3D models and various approaches to modelling the interaction between concrete and reinforcing bars. The experimental data, which included load-displacement curves and failure modes, were compared with numerical results to assess the accuracy of each modelling approach. The study highlights the impact of using 2D versus 3D models and different reinforcement modelling approaches on the load-bearing capacity and crack patterns of beams, providing valuable insights into the most effective modelling strategies.
M3 - Conference contribution
T3 - fib Symposium proceedings
SP - 3017
EP - 3028
BT - Proceedings of the 2025 fib International Symposium
PB - International Federation for Structural Concrete
T2 - fib International Symposium on Concrete Structures: extend lifetime, limit impacts
Y2 - 16 June 2025 through 18 June 2025
ER -