Novel Multiaction Model for Shear Strength Prediction of Reinforced Concrete Beams: Development and Application to Elements with FRP Bars and FRC
- 1 February 2025
- journal article
- research article
- Published by American Society of Civil Engineers (ASCE) in Journal of Composites for Construction
- Vol. 29 (1)
- https://doi.org/10.1061/jccof2.cceng-4880
Abstract
No abstract availableKeywords
This publication has 26 references indexed in Scilit:
- Experimental investigation of the shear behavior of steel fiber reinforced concrete slender beams without stirrups through crack kinematics and shear transfer mechanismsStructural Concrete, 2023
- An inverse analysis method for multi-linear tensile stress-crack opening relationship of 3D/4D/5D steel fiber reinforced concreteConstruction and Building Materials, 2021
- Experimental and theoretical investigation on the stress transfer across cracks due to combined action of steel fibers and aggregate interlockCement and Concrete Composites, 2021
- Influence of steel fibers on the dowel action of RC beams without stirrupsEngineering Structures, 2020
- Shear Crack Propagation Theory (SCPT) – The mechanical solution to the riddle of shear in RC members without shear reinforcementEngineering Structures, 2020
- Discrete meso-scale modeling and simulation of shear response of scaled glass FRP reinforced concrete beams without stirrupsEngineering Fracture Mechanics, 2019
- A mechanical model for failures in shear of members without transverse reinforcement based on development of a critical shear crackEngineering Structures, 2018
- An analysis of the shear‐transfer actions in reinforced concrete members without transverse reinforcement based on refined experimental measurementsStructural Concrete, 2017
- Investigation of the shear behavior of RC beams on the basis of measured crack kinematicsEngineering Structures, 2016
- Shear design of FRP reinforced concrete beams without transverse reinforcementComposites Part B: Engineering, 2014