4.7 Article

Strength reduction design method for reinforced concrete structures: Generalization

Journal

ENGINEERING STRUCTURES
Volume 258, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.engstruct.2022.114134

Keywords

Non-linear finite elements; Reinforced concrete; 3D stresses; Strength reduction method; Strut-and-tie method; Strain incompatibility; Validation

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This work presents an enhanced computational design method for complex reinforced concrete structures. The method extends the applicability of a previously developed method to 3D stress states and various tension stiffening and incompatibility laws. It addresses the limitations of existing methods and provides important results regarding nodal zone shape, incompatibility, and strut development conditions.
This work presents a generalization and enhancement of a previously developed computational strength reduction design method (SRDM) for the design of complex reinforced concrete structures. The enhanced method SRDM-3D presented in this work extends the applicability of the original method to a more general 3D state of stresses and to different possible input tension stiffening and incompatibility laws, via a new calibration procedure. It also addresses the limitations of the strut-and-tie method initially developed and often applied to 2D geometries. Application of the developed method for simple 3D configurations allowed to obtain important results regarding the shape of nodal zones, incompatibility between concrete struts and reinforcement ties and conditions for the development of bottle-shaped struts for the general 3D framework of reinforced concrete structural elements. Validation examples presented at the end of the study on reinforced concrete pile caps demonstrate the robustness of the developed method, and its ability to provide a safe lower-bound design solution to different geometry configurations and different failure mechanisms. The developed method has the advantage of using a simple constitutive law and input parameters that are standard parameters required for design of RC structures.

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