When the stability of an excavation face in a deep tunnel is not ensured by the strength characteristics of the rock mass, it is current practice to proceed with reinforcement of the face using longitudinal fibreglass dowels. An analysis of the effect of these reinforcements and a correct dimensioning can be obtained through three-dimensional numerical modelling, which is very burdensome from a computational point of view. The simplified methods that are at present available do not allow the maximum force in the dowels to be obtained and cannot therefore be used for their dimensioning.A finite difference procedure for deep tunnels is presented in this paper. This procedure is able to analyse the presence of dowels in the rock mass in a distinct manner, and it adopts the conceptual schematisation of a spherical geometry void for the approximation of the tunnel face zone. A calculation comparison of the simplified procedure and the three-dimensional numerical modelling has offered satisfactory results. The procedure has also been applied to a real case and the results agree with in situ measurements

Face stabilization of deep tunnels using longitudinal fibreglass dowels / Oreste, Pierpaolo. - In: INTERNATIONAL JOURNAL OF ROCK MECHANICS AND MINING SCIENCES. - ISSN 1365-1609. - STAMPA. - 58:(2013), pp. 127-140. [10.1016/j.ijrmms.2012.07.011]

Face stabilization of deep tunnels using longitudinal fibreglass dowels

ORESTE, PIERPAOLO
2013

Abstract

When the stability of an excavation face in a deep tunnel is not ensured by the strength characteristics of the rock mass, it is current practice to proceed with reinforcement of the face using longitudinal fibreglass dowels. An analysis of the effect of these reinforcements and a correct dimensioning can be obtained through three-dimensional numerical modelling, which is very burdensome from a computational point of view. The simplified methods that are at present available do not allow the maximum force in the dowels to be obtained and cannot therefore be used for their dimensioning.A finite difference procedure for deep tunnels is presented in this paper. This procedure is able to analyse the presence of dowels in the rock mass in a distinct manner, and it adopts the conceptual schematisation of a spherical geometry void for the approximation of the tunnel face zone. A calculation comparison of the simplified procedure and the three-dimensional numerical modelling has offered satisfactory results. The procedure has also been applied to a real case and the results agree with in situ measurements
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2517722
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