@article { author = {Ghazi-Nader, Dina and Aghayari, Reza}, title = {Numerical Analysis of Plastic Hinge Regions in RC Deep Beams under Concentrated and Distributed Loads}, journal = {Journal of Civil and Environmental Engineering}, volume = {53.2}, number = {111}, pages = {168-178}, year = {2023}, publisher = {Dean of Faculty of Civil Engineering}, issn = {2008-7918}, eissn = {2717-4077}, doi = {10.22034/jcee.2022.41610.1960}, abstract = {Plastic hinge properties play a crucial role in predicting the nonlinear response of structural elements. The plastic hinge region of reinforced concrete normal beams has been previously studied experimentally and analytically. The main objective of this research is to evaluate the behavior of the plastic hinge region of reinforced concrete deep beams and its comparison with normal beams through finite element simulation. To do so, ten beams contain six deep beams, and four normal beams, under concentrated and uniformly distributed loading, are investigated. Lengths in the plastic hinge region involving curvature localization, rebar yielding, and concrete crushing zones are studied. The results indicate that the curvature localization zone is not suitable for the prediction of plastic hinge length in reinforced concrete deep beams. Based on the results it can be stated that in simply supported normal beams the concrete crushing zone is focused on the middle span, but in simply supported deep beams by creating a compression strut between loading place and support, the concrete crushing zone spreads along the compression trajectory. The rebar yielding zone of simply supported beams increases as the loading type is changed from the concentrated load at the middle to the uniformly distributed load.}, keywords = {Plastic hinge,RC deep beam,Nonlinear strain,Reinforced concrete,Finite Element Analysis}, title_fa = {Numerical Analysis of Plastic Hinge Regions in RC Deep Beams under Concentrated and Distributed Loads}, abstract_fa = {Plastic hinge properties play a crucial role in predicting the nonlinear response of structural elements. The plastic hinge region of reinforced concrete normal beams has been previously studied experimentally and analytically. The main objective of this research is to evaluate the behavior of the plastic hinge region of reinforced concrete deep beams and its comparison with normal beams through finite element simulation. To do so, ten beams contain six deep beams, and four normal beams, under concentrated and uniformly distributed loading, are investigated. Lengths in the plastic hinge region involving curvature localization, rebar yielding, and concrete crushing zones are studied. The results indicate that the curvature localization zone is not suitable for the prediction of plastic hinge length in reinforced concrete deep beams. Based on the results it can be stated that in simply supported normal beams the concrete crushing zone is focused on the middle span, but in simply supported deep beams by creating a compression strut between loading place and support, the concrete crushing zone spreads along the compression trajectory. The rebar yielding zone of simply supported beams increases as the loading type is changed from the concentrated load at the middle to the uniformly distributed load.}, keywords_fa = {Plastic hinge,RC deep beam,Nonlinear strain,Reinforced concrete,Finite Element Analysis}, url = {https://ceej.tabrizu.ac.ir/article_14158.html}, eprint = {https://ceej.tabrizu.ac.ir/article_14158_c4e1fdf12de1e1d3febbdd21ce012b27.pdf} }