This paper describes an approximate procedure for the evaluation of the damage induced on existing buildings by the excavation of a tunnel. The method hinges on the development of a simplified structural model of the building that can be readily incorporated into the finite-element mesh used to simulate the excavation of a tunnel. The first part of the paper is devoted to the description of the equivalent structure and to the illustration of an identification procedure for the evaluation of its mechanical properties, based on appropriate scaling of the areal and inertial characteristics of the parent building. Then, the practical use of the method is illustrated by carrying out a series of threedimensional numerical analyses of the excavation of an earth pressure balance tunnel; these include either the simplified or the fully detailed structural model of a masonry building. Using the results obtained with the complete building as a reference, it is shown that the simplified formulation is quite effective in capturing the main features of the soil–structure interaction for the problem at hand. Cases in which the method is less successful are discussed as well, indicating a suitable adjustment of the identification procedure for the simplified structural model.
Uncoupled evaluation of the structural damage induced by tunneling / Losacco, N.; Burghignoli, A.; Callisto, L.. - In: GEOTECHNIQUE. - ISSN 0016-8505. - STAMPA. - 64:8(2014), pp. 646-656. [10.1680/geot.13.P.213]
Uncoupled evaluation of the structural damage induced by tunneling
Losacco N.
;
2014-01-01
Abstract
This paper describes an approximate procedure for the evaluation of the damage induced on existing buildings by the excavation of a tunnel. The method hinges on the development of a simplified structural model of the building that can be readily incorporated into the finite-element mesh used to simulate the excavation of a tunnel. The first part of the paper is devoted to the description of the equivalent structure and to the illustration of an identification procedure for the evaluation of its mechanical properties, based on appropriate scaling of the areal and inertial characteristics of the parent building. Then, the practical use of the method is illustrated by carrying out a series of threedimensional numerical analyses of the excavation of an earth pressure balance tunnel; these include either the simplified or the fully detailed structural model of a masonry building. Using the results obtained with the complete building as a reference, it is shown that the simplified formulation is quite effective in capturing the main features of the soil–structure interaction for the problem at hand. Cases in which the method is less successful are discussed as well, indicating a suitable adjustment of the identification procedure for the simplified structural model.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.