2018
DOI: 10.1186/s40069-018-0263-6
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Punching Shear Failure of Concrete Ground Supported Slab

Abstract: Abstract:The article handles potential approaches to design and determination of total load capacity of foundation slabs and floors. The research is focused on punching shear failure of reinforced ground supported slab. The article presents detailed results of the experiment made and advanced numerical modelling based on nonlinear analysis and application of fracture-plastic model. The experiment made included a 2.0 9 1.95 m reinforced concrete slab-on-ground of 120 mm thickness. The experiment was followed by… Show more

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Cited by 39 publications
(21 citation statements)
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“…The bearing capacity of slabs G05 (25 kg of fibers per m 3 ), G06 (50 kg of fibers per m 3 ), and G07 (75 kg of fibers per m 3 ) corresponded to 478 kN, 550 kN, and 635 kN, respectively. This paper is primarily focused on the soil stress analysis below the slab, and additional detailed information relating to slab behavior during the mentioned experimental works have been explored in other papers [24][25][26]. The comparison of stresses below the three investigated slabs-G05, G06, and G07-related to the loading of 125 kN (before the slab uplift) is presented in Figure 9.…”
Section: Results Of Experimental Workmentioning
confidence: 99%
“…The bearing capacity of slabs G05 (25 kg of fibers per m 3 ), G06 (50 kg of fibers per m 3 ), and G07 (75 kg of fibers per m 3 ) corresponded to 478 kN, 550 kN, and 635 kN, respectively. This paper is primarily focused on the soil stress analysis below the slab, and additional detailed information relating to slab behavior during the mentioned experimental works have been explored in other papers [24][25][26]. The comparison of stresses below the three investigated slabs-G05, G06, and G07-related to the loading of 125 kN (before the slab uplift) is presented in Figure 9.…”
Section: Results Of Experimental Workmentioning
confidence: 99%
“…Numerical modeling [1,2], together with experiments [3][4][5][6][7], enables a detailed understanding of the real behavior of structures and structural optimization. The search for new and innovative design solutions is then associated with the use of advanced materials [8][9][10][11].…”
Section: Introductionmentioning
confidence: 99%
“…The common applications of fiber concrete include industrial floors [6,7] and universal slabs exposed to point or linear mechanical loads in interaction with the subsoil, with prospective punching failure [8][9][10] or general shear failure [11,12]. The design of fiber concrete slabs requires comprehensive knowledge of the input parameters [13,14], especially the mechanical properties determined by specialized laboratory tests.…”
Section: Introductionmentioning
confidence: 99%