Effects of floor slabs on the flexural strength of beams in reinforced concrete buildings

The effects of floor slabs on the flexural strength of beams in reinforced concrete buildings under seismic action were verified through tests of frame assembly specimens. A series of experimental and analytical investigations were conducted from 2010 to 2014 in order to further validate the current design practices in Japan. Loading methods in the past beam component tests were reviewed with probable effects of floor slabs. A special loading set-up was used for the frame assembly specimens consisting of four columns and four beams with lengths of one span and two half spans in two directions. The four columns were loaded laterally and independently at mid-height of the upper storey and supported at mid-height of the lower storey with pin-fixed and pin-roller so that axial elongation of the beams and slab would not be constrained by the lateral forces. It has been found from these new loading tests that the tensile stresses in the floor slab reinforcing bars are generally uniform at the beam critical sections and up to the full slab width for the flexural strength when the slab is subjected to tension bending around one percent storey drift, which is much wider than assumed in the current design evaluation.

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Effective Slab Width for Evaluating Ultimate Seismic Capacities of Reinforced Concrete Buildings

Lecture Notes in Civil Engineering - Proceedings of the 4th Congrès International de Géotechnique - Ouvrages -Structures ◽

10.1007/978-981-10-6713-6_2 ◽

2017 ◽

pp. 15-29

Author(s):

Toshimi Kabeyasawa ◽

Toshikazu Kabeyasawa

Keyword(s):

Reinforced Concrete ◽

Reinforced Concrete Buildings ◽

Concrete Buildings ◽

Slab Width

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Reinforced Concrete Buildings with Plane Frame, Shear Wall with and without Openings

E3S Web of Conferences ◽

10.1051/e3sconf/20186502007 ◽

2018 ◽

Vol 65 ◽

pp. 02007

Author(s):

Zafarullah Nizamani ◽

Wong Che Luk ◽

Syed Muhammad Bilal Haider

Keyword(s):

Reinforced Concrete ◽

Pushover Analysis ◽

Shear Wall ◽

Seismic Action ◽

Base Shear ◽

Reinforced Concrete Buildings ◽

Concrete Buildings ◽

Frame Model ◽

High Rise ◽

Plane Frame

Malaysia is situated at Sunda plate which has geographic advantage in seismic zone. However, an earthquake occurred in Sabah, east of Malaysia without a warning in 2015. This scenario raised the question regarding the structural performance of high-rise buildings in Malaysia in response to seismic activity. This study is to analyze the effects of the shear wall on seven RC buildings by using pushover analysis. This pushover analysis is a simple approach where a building is subjected to increasing horizontal lateral loads until the building fails. SCIA Engineer software is used to model three different designs of seven storeys buildings are model in accordance with the Eurocode 8. The pushover analyses are carried out on three models, pushover curves (base shear vs. roof displacement) are plotted, and they are compared to explore both elastic and inelastic properties of the building response to the seismic action. The frame model without shear wall can resist less base shear. The plane frame model also approaches maximum allowable displacement of 60 mm earlier as compared to the other two models. Therefore, the high-rise buildings with shear wall design are highly recommended for the lifelong seismic resistance of reinforced concrete buildings.

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