The present work deals with the mechanical behavior of a large FRC slab bilaterally supported by a non-local soil. The slab is modelled as a ductile Kirchhoff plate laying on a two-parameter elastic and transversally loaded by a uniform pressure applied on a circular area, thus making the problem axisymmetric. This layout covers a wide array of practical applications of fiber reinforced concrete in structural and civil engineering related to the assessment of the load carrying capacity of industrial floors, roads, airfield pavements and building foundations. The problem is governed by a fourth order linear ODE with variable coefficients, whose solution has been obtained in power series by using the Frobenius method. The analysis allows us to evaluate the influence of the size of the loaded area and the relative stiffness of the slab/subgrade system on the collapse mechanism and the corresponding load carrying capacity, as well as on the distributions of displacement, rotation, bending moments, shear force and contact pressure at the onset of collapse

Failure mechanism of FRC slabs on nonlocal ground / Lanzoni, L., Nobili, A., Radi, E., Sorzia, A.. - In: MECCANICA. - ISSN 0025-6455. - ELETTRONICO. - 51:10(2016), pp. 2473-2492. [10.1007/s11012-016-0382-6]

Failure mechanism of FRC slabs on nonlocal ground

LANZONI, Luca;NOBILI, Andrea;RADI, Enrico;SORZIA, ANDREA
2016

Abstract

The present work deals with the mechanical behavior of a large FRC slab bilaterally supported by a non-local soil. The slab is modelled as a ductile Kirchhoff plate laying on a two-parameter elastic and transversally loaded by a uniform pressure applied on a circular area, thus making the problem axisymmetric. This layout covers a wide array of practical applications of fiber reinforced concrete in structural and civil engineering related to the assessment of the load carrying capacity of industrial floors, roads, airfield pavements and building foundations. The problem is governed by a fourth order linear ODE with variable coefficients, whose solution has been obtained in power series by using the Frobenius method. The analysis allows us to evaluate the influence of the size of the loaded area and the relative stiffness of the slab/subgrade system on the collapse mechanism and the corresponding load carrying capacity, as well as on the distributions of displacement, rotation, bending moments, shear force and contact pressure at the onset of collapse
2016
20-feb-2016
no
Inglese
MECCANICA
51
10
2473
2492
WOS:000382143900013
2-s2.0-84958741531
http://link.springer.com/article/10.1007/s11012-016-0382-6
Ultimate carrying capacity, Johansen’s failure criterion, Collapse mechanics, FRC slab, Kirchhoff plate, Two-parameter foundation , Axisymmetric loading condition, Frobenius method
Impact Factor: 1.949
reserved
info:eu-repo/semantics/article
Contributo su RIVISTA::Articolo su rivista
262
Failure mechanism of FRC slabs on nonlocal ground / Lanzoni, L., Nobili, A., Radi, E., Sorzia, A.. - In: MECCANICA. - ISSN 0025-6455. - ELETTRONICO. - 51:10(2016), pp. 2473-2492. [10.1007/s11012-016-0382-6]
Lanzoni, Luca; Nobili, Andrea; Radi, Enrico; Sorzia, Andrea
4
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1085589
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