One of the most important aspects regarding the design of geosyntheticreinforced soil structures is to predict the long-term behaviour of reinforcements and interfaces. The paper describes a new large-scale laboratory apparatus capable of investigating the behaviour under pullout conditions of a geosynthetic reinforcement embedded in a compacted granular soil, and subjected to sustained tensile loading. By using the long-term pullout test results, the writers suggest a procedure for the determination of the interface parameter necessary to design the length of the reinforcement in the anchorage zone that can take into account the viscous effects of the polymeric material arising under serviceability conditions during the design working life.
Long-term pullout tests to analyse the soil-geogrid interaction / Pisano, M.; Cardile, G.; Moraci, N.; Recalcati, P.. - (2023), pp. 617-622. (Intervento presentato al convegno Geosynthetics: Leading the Way to a Resilient Planet tenutosi a Roma nel 17-21 Settembre 2023) [10.1201/9781003386889-66].
Long-term pullout tests to analyse the soil-geogrid interaction
M. Pisano;G. Cardile;N. Moraci;
2023-01-01
Abstract
One of the most important aspects regarding the design of geosyntheticreinforced soil structures is to predict the long-term behaviour of reinforcements and interfaces. The paper describes a new large-scale laboratory apparatus capable of investigating the behaviour under pullout conditions of a geosynthetic reinforcement embedded in a compacted granular soil, and subjected to sustained tensile loading. By using the long-term pullout test results, the writers suggest a procedure for the determination of the interface parameter necessary to design the length of the reinforcement in the anchorage zone that can take into account the viscous effects of the polymeric material arising under serviceability conditions during the design working life.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
