![]() The most accurate result was provided by a finite element model constructed using beam finite elements as reinforcing rods. An engineering technique has been developed for numerical analysis of the stress-strain state of the coupling of the floor and the column of the reinforced concrete monolithic frame under static loading. The refined calculation of the coupling zone of the floor slab and column under static loading was performed using solid, beam, truss and plate elements. A plate-rod ensemble of finite elements was used to simulate the stress-strain state of a monolithic reinforced concrete frame. ![]() Computational experiments were performed using the ANSYS Mechanical software package, in which the finite element method was implemented in the form of a displacement method. Practical recommendations have been developed for the refined strength calcula-tion of the floors of monolithic reinforced concrete frames of multistorey buildings. ![]() Numerical experiments using volume-rod and volume-plate models of a repeating structural fragment were performed on a test example of a six-span three-storey monolithic reinforced concrete frame. This study aims at developing the concept of fragmentation of the frame to assess the load-bearing capacity of the floors.Īs a rule, a frame-rod design scheme is used under the finite elementmodeling of high-rise buildings made of monolithic reinforced concrete. ![]()
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