The beams with composite reinforcement inclined sections’ finite element modeling operation results comparison with the results of the laboratory samples’ tests

The results of a numerical experiment are presented, within the framework of which finite element modeling of the reinforced concrete beams support sections with external composite reinforcement beams inclined sections operation was carried out, as well as their comparison with the results of an exp...

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Bibliographic Details
Published in:E3S web of conferences 2021, Vol.281, p.1027
Main Authors: Shilov, Alexander, Shilov, Petr
Format: Article
Language:English
Subjects:
Clamps
Computer applications
Experiments
Finite element method
Laboratories
Laboratory tests
Mathematical models
Reinforced concrete
Reinforcement
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Summary:The results of a numerical experiment are presented, within the framework of which finite element modeling of the reinforced concrete beams support sections with external composite reinforcement beams inclined sections operation was carried out, as well as their comparison with the results of an experiment carried out on real laboratory samples, similarly reinforced on the support areas by external composite U-shaped cross clamps. The strength of inclined sections of both real laboratory specimens and their design models was considered. Both numerical and real experiments were carried out at three values of the shear fracture span: 1.5 h 0 ; 2.0 h 0 and 2.5 h 0 . The obtained results of the numerical experiment are compared with the results of laboratory tests on beams in order to analyze the accuracy of the calculation results and to find the optimal method for modeling and taking into account the external composite reinforcement clamps in the design models that would most accurately reflect their contribution to the operation of the inclined section of bent reinforced concrete elements. For the numerical experiment, the method of finite element modeling of samples was used. An assessment of the method used for computational modeling of the operation of inclined sections reinforced with external composite reinforcement is given.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/202128101027