LARGE EXCAVATIONS IN URBAN PERIMETER: STUDY OF DISPLACEMENTS IN NEIGHBORING FOUNDATIONS
This article aims to numerically analyze the itfluence cf excavations on the suiface settlements cf neighboring building foundations using the Plaxis 3D finite element software. This is a topic cf great interest in urban areas with a high concentration cf buddings. The need for increasingly deeper e...
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| Veröffentlicht in: | International journal of advances in engineering and technology 2023-12, Vol.16 (6), p.593-607 |
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| creator | Honorio, Allan Alexandre Faro, Vitor Pereira |
| description | This article aims to numerically analyze the itfluence cf excavations on the suiface settlements cf neighboring building foundations using the Plaxis 3D finite element software. This is a topic cf great interest in urban areas with a high concentration cf buddings. The need for increasingly deeper excavations has challenged geotechnical engineers to balance high horizontal pressures while minimizing soil displacements and avoiding damage to nearby structures. In this article, a detailed analysis cf the main empirical methods available in the literature for predicting settlement profiles caused by excavations is presented, comparing them with results obtained through finite element software. The study results showed that the empirical method preposed by Hsieh and Ou (1998) provided the best approximation in predicting settlement profiles in the analyzed cases, both for maximum settlement and for the profile cf suiface settlements with respect to the distance from the excavation face. The method preposed by Ciria (2003), which indicates settlement values during the installation phase cf the retaining structure before excavation, also demonstrated a good correlation with the data obtained from the software. Finally, the application cf numerical modeling to the selected cases cor firmed the observations highlighted by deferent authors, demonstrating its ability to satisfactorily reproduce horizontal wall displacements and provide an approximate prediction cf suiface settlements. These findings contribute to a better understanding cf the ejects cf neighboring excavations on foundations and can assist geotechnical engineers in decision-making during the planning and execution cf excavation projects in densely built urban areas. |
| doi_str_mv | 10.5281/zenodo.10518038 |
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This is a topic cf great interest in urban areas with a high concentration cf buddings. The need for increasingly deeper excavations has challenged geotechnical engineers to balance high horizontal pressures while minimizing soil displacements and avoiding damage to nearby structures. In this article, a detailed analysis cf the main empirical methods available in the literature for predicting settlement profiles caused by excavations is presented, comparing them with results obtained through finite element software. The study results showed that the empirical method preposed by Hsieh and Ou (1998) provided the best approximation in predicting settlement profiles in the analyzed cases, both for maximum settlement and for the profile cf suiface settlements with respect to the distance from the excavation face. The method preposed by Ciria (2003), which indicates settlement values during the installation phase cf the retaining structure before excavation, also demonstrated a good correlation with the data obtained from the software. Finally, the application cf numerical modeling to the selected cases cor firmed the observations highlighted by deferent authors, demonstrating its ability to satisfactorily reproduce horizontal wall displacements and provide an approximate prediction cf suiface settlements. These findings contribute to a better understanding cf the ejects cf neighboring excavations on foundations and can assist geotechnical engineers in decision-making during the planning and execution cf excavation projects in densely built urban areas.</description><identifier>EISSN: 2231-1963</identifier><identifier>DOI: 10.5281/zenodo.10518038</identifier><language>eng</language><publisher>Bareilly: I A E T Publishing Company</publisher><subject>Case studies ; Decision making ; Design ; Empirical analysis ; Engineers ; Excavation ; Finite element analysis ; Finite element method ; Foundations ; Geotechnical engineering ; Mathematical analysis ; Methods ; Numerical analysis ; Numerical models ; Settling ; Software ; Urban areas</subject><ispartof>International journal of advances in engineering and technology, 2023-12, Vol.16 (6), p.593-607</ispartof><rights>Copyright I A E T Publishing Company Dec 2023</rights><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27903,27904</link.rule.ids></links><search><creatorcontrib>Honorio, Allan Alexandre</creatorcontrib><creatorcontrib>Faro, Vitor Pereira</creatorcontrib><title>LARGE EXCAVATIONS IN URBAN PERIMETER: STUDY OF DISPLACEMENTS IN NEIGHBORING FOUNDATIONS</title><title>International journal of advances in engineering and technology</title><description>This article aims to numerically analyze the itfluence cf excavations on the suiface settlements cf neighboring building foundations using the Plaxis 3D finite element software. This is a topic cf great interest in urban areas with a high concentration cf buddings. The need for increasingly deeper excavations has challenged geotechnical engineers to balance high horizontal pressures while minimizing soil displacements and avoiding damage to nearby structures. In this article, a detailed analysis cf the main empirical methods available in the literature for predicting settlement profiles caused by excavations is presented, comparing them with results obtained through finite element software. The study results showed that the empirical method preposed by Hsieh and Ou (1998) provided the best approximation in predicting settlement profiles in the analyzed cases, both for maximum settlement and for the profile cf suiface settlements with respect to the distance from the excavation face. The method preposed by Ciria (2003), which indicates settlement values during the installation phase cf the retaining structure before excavation, also demonstrated a good correlation with the data obtained from the software. Finally, the application cf numerical modeling to the selected cases cor firmed the observations highlighted by deferent authors, demonstrating its ability to satisfactorily reproduce horizontal wall displacements and provide an approximate prediction cf suiface settlements. 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This is a topic cf great interest in urban areas with a high concentration cf buddings. The need for increasingly deeper excavations has challenged geotechnical engineers to balance high horizontal pressures while minimizing soil displacements and avoiding damage to nearby structures. In this article, a detailed analysis cf the main empirical methods available in the literature for predicting settlement profiles caused by excavations is presented, comparing them with results obtained through finite element software. The study results showed that the empirical method preposed by Hsieh and Ou (1998) provided the best approximation in predicting settlement profiles in the analyzed cases, both for maximum settlement and for the profile cf suiface settlements with respect to the distance from the excavation face. The method preposed by Ciria (2003), which indicates settlement values during the installation phase cf the retaining structure before excavation, also demonstrated a good correlation with the data obtained from the software. Finally, the application cf numerical modeling to the selected cases cor firmed the observations highlighted by deferent authors, demonstrating its ability to satisfactorily reproduce horizontal wall displacements and provide an approximate prediction cf suiface settlements. These findings contribute to a better understanding cf the ejects cf neighboring excavations on foundations and can assist geotechnical engineers in decision-making during the planning and execution cf excavation projects in densely built urban areas.</abstract><cop>Bareilly</cop><pub>I A E T Publishing Company</pub><doi>10.5281/zenodo.10518038</doi></addata></record> |
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| subjects | Case studies Decision making Design Empirical analysis Engineers Excavation Finite element analysis Finite element method Foundations Geotechnical engineering Mathematical analysis Methods Numerical analysis Numerical models Settling Software Urban areas |
| title | LARGE EXCAVATIONS IN URBAN PERIMETER: STUDY OF DISPLACEMENTS IN NEIGHBORING FOUNDATIONS |
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