Bemessung von geokunststoffummantelten Sandsäulen

Raithel, Marc; Kempfert, Hans‐Georg

doi:10.1002/bate.199906410

Cited by 17 publications

(5 citation statements)

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“…Raithel & Kempfert (2000) method Raithel & Kempfert (2000) proposed an analytical method (hereafter referred to by the code R&K) for the design of encased stone column foundations which is adopted by the German Standard EBGEO (2011). This method was firstly proposed by Raithel (1999) and assumes identical settlements for both stone column and surrounding soil and aims to predict the behavior of a single column and the surrounding soil as a whole (unit cell, Fig. 1) under long-term drained condition when maximum value of radius variation and settlements are obtained.…”

Section: Methodsmentioning

confidence: 99%

Behavior of Geosynthetic-Encased Stone Columns in Soft Clay: Numerical and Analytical Evaluations

Alkhorshid¹,

Araújo²,

Palmeira³

2018

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The type of improvement technique that will be applied to a soil beneath an embankment depends on the nature of the problematic soil existing at the site. Soft soils beneath embankments typically present high compressibilities and low shear strengths. In some cases, geosynthetic-encased stone columns (GECs) have shown advantages over other solutions to improve embankment behavior. The aim of this study is to investigate the performance of GECs by means of numerical and analytical methods. Finite Element Analyses were conducted to evaluate the behavior of ordinary and geosyntheticencased stone columns underneath an embankment. Parametric studies were then conducted to investigate the influence of geosynthetic stiffness, column spacing, friction angle of column material and Stress Concentration Ratio (SCR) on the performance of the columns. The results obtained have shown that there are several parameters that are of paramount importance in improving the performance of GECs, such as geosynthetics stiffness, column spacing and thickness of soft soil layer.

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Section: Methodsmentioning

confidence: 99%

Behavior of Geosynthetic-Encased Stone Columns in Soft Clay: Numerical and Analytical Evaluations

Alkhorshid¹,

Araújo²,

Palmeira³

2018

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“…Area replacement ratios are generally between 0.3 and 0.5, and settlement improvement is based on experience, with an empirical stress concentration factor n = 3 (Tanimoto, 1973). To reduce the settlements of large diameter replacement sand columns a method has been introduced in Germany whereby a geotextile liner encases the sand (Raithel and Kempfert, 1999). Considerable vertical deformations activate the tensile forces of the geotextile before, ultimately, horizontal deformations of the column generate supporting stresses of the surrounding soil (Raithel, 1999).…”

Section: Generalmentioning

confidence: 99%

Ground Improvement by Deep Vibratory Methods

Kirsch¹

2010

ncej

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“…In diesem Beitrag wurden numerische wie analytische Berechnungsverfahren vorgestellt, welche bei einer gegebenen Gründungssituation eine Prognose der Verformungen und der Ringzugkräfte in der Geokunststoffummantelung ermöglichen. Weitere Hinweise zur Prognose von Setzungsmulden und Horizontalverformungen sowie Ansätze zur Erfassung von Kriecherscheinungen und zyklischen Belastungen werden in [1] gegeben.…”

Section: Schlußbemerkungunclassified

“…5 m hohe Dammgründung auf ca. 5 m mächtigen Torf-und Kleischichten für Vergleichsberechnungen ausgewählt (nähere Angaben sind in [1] und [2] enthalten). In Bild 7 sind die berechneten Last-Setzungs-und Last-Dehnungslinien aufgetragen.…”

Section: Introductionunclassified