The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study

The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study

This paper analyses the effect of polyurethane injections on the seismic surficial response of cohesionless soils. For this purpose, dynamic finite element numerical analyses were performed through GiD + OpenSees. Both the soil and the composite material, resulted after the expansion of the injected...

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Main Authors: Michele Placido Antonio Gatto, Valentina Lentini, Francesco Castelli, Lorella Montrasio, Davide Grassi
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Geosciences
Subjects:
geotechnical seismic isolation
polyurethane
impact tests
numerical simulations
finite element
OpenSees
Online Access:https://www.mdpi.com/2076-3263/11/5/201
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spelling doaj-1ee2734ffa044379bad5c4a35e03bf282021-05-31T23:10:02ZengMDPI AGGeosciences2076-32632021-05-011120120110.3390/geosciences11050201The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical StudyMichele Placido Antonio Gatto0Valentina Lentini1Francesco Castelli2Lorella Montrasio3Davide Grassi4Department of Engineering and Architecture, University of Parma, Parco Area delle Scienze, 181/A, 43121 Parma, ItalyFaculty of Engineering and Architecture, University Kore of Enna, Viale delle Olimpiadi, 94100 Enna, ItalyFaculty of Engineering and Architecture, University Kore of Enna, Viale delle Olimpiadi, 94100 Enna, ItalyDepartment of Engineering and Architecture, University of Parma, Parco Area delle Scienze, 181/A, 43121 Parma, ItalyMaster Builders Solutions Italia Spa, Strada Vicinale delle Corti, 21, 31100 Treviso, ItalyThis paper analyses the effect of polyurethane injections on the seismic surficial response of cohesionless soils. For this purpose, dynamic finite element numerical analyses were performed through GiD + OpenSees. Both the soil and the composite material, resulted after the expansion of the injected polyurethane, are modelled with a nonlinear hysteretic constitutive model. Based on the polyurethane percentage, a homogenisation of the characteristics was considered for the composite material: linear for density and damping, and exponential (experimentally calibrated) for the stiffness. An expansion coefficient quantifies how much the injected polyurethane expands: three expansion coefficients were considered, each of them related to a different polyurethane density. For the evaluation of the foam stiffness, a linear stiffness–density correlation was used, derived after impact tests. Results showed that polyurethane reduces the surficial accelerations proportionally to the ratio of its seismic impedance and volumetric percentage with respect to the soil seismic impedance and total volume. This is a preliminary indication for the design of polyurethane injections in cohesionless soils for seismic acceleration reduction.https://www.mdpi.com/2076-3263/11/5/201geotechnical seismic isolationpolyurethaneimpact testsnumerical simulationsfinite elementOpenSees
collection DOAJ
language English
format Article
sources DOAJ
author Michele Placido Antonio Gatto
Valentina Lentini
Francesco Castelli
Lorella Montrasio
Davide Grassi
spellingShingle Michele Placido Antonio Gatto
Valentina Lentini
Francesco Castelli
Lorella Montrasio
Davide Grassi
The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study
Geosciences
geotechnical seismic isolation
polyurethane
impact tests
numerical simulations
finite element
OpenSees
author_facet Michele Placido Antonio Gatto
Valentina Lentini
Francesco Castelli
Lorella Montrasio
Davide Grassi
author_sort Michele Placido Antonio Gatto
title The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study
title_short The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study
title_full The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study
title_fullStr The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study
title_full_unstemmed The Use of Polyurethane Injection as a Geotechnical Seismic Isolation Method in Large-Scale Applications: A Numerical Study
title_sort use of polyurethane injection as a geotechnical seismic isolation method in large-scale applications: a numerical study
publisher MDPI AG
series Geosciences
issn 2076-3263
publishDate 2021-05-01
description This paper analyses the effect of polyurethane injections on the seismic surficial response of cohesionless soils. For this purpose, dynamic finite element numerical analyses were performed through GiD + OpenSees. Both the soil and the composite material, resulted after the expansion of the injected polyurethane, are modelled with a nonlinear hysteretic constitutive model. Based on the polyurethane percentage, a homogenisation of the characteristics was considered for the composite material: linear for density and damping, and exponential (experimentally calibrated) for the stiffness. An expansion coefficient quantifies how much the injected polyurethane expands: three expansion coefficients were considered, each of them related to a different polyurethane density. For the evaluation of the foam stiffness, a linear stiffness–density correlation was used, derived after impact tests. Results showed that polyurethane reduces the surficial accelerations proportionally to the ratio of its seismic impedance and volumetric percentage with respect to the soil seismic impedance and total volume. This is a preliminary indication for the design of polyurethane injections in cohesionless soils for seismic acceleration reduction.
topic geotechnical seismic isolation
polyurethane
impact tests
numerical simulations
finite element
OpenSees
url https://www.mdpi.com/2076-3263/11/5/201
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