2008
DOI: 10.1007/s10706-008-9247-7
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Vertical Uplift Capacity of Equally Spaced Multiple Strip Anchors in Sand

Abstract: The ultimate uplift resistance of a group of multiple strip anchors placed in sand and subjected to equal magnitudes of vertical upward pullout loads has been determined by means of model experiments. Instead of using a number of anchor plates in the experiments, a single anchor plate was used by simulating the boundary conditions along the planes of symmetry on both the sides of the anchor plate. The effect of clear spacing (s) between the anchors, for different combinations of embedment ratio (k) of anchors … Show more

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Cited by 13 publications
(3 citation statements)
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“…Pullout capacity of anchors (P), define as maximum pullout load carried by anchor, depends on various factors, such as type, shape, size, depth and inclination of the anchor, embedment depth and subsoil condition. Therefore, the required pullout capacity of plate anchor systems can be enhanced by increasing the size and embedment depth of the anchor or improving backfill strength and density (Ganesh and Sahoo, 2016;Kumar and Bhoi, 2009;Liu et al, 2011;Rahimi, et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…Pullout capacity of anchors (P), define as maximum pullout load carried by anchor, depends on various factors, such as type, shape, size, depth and inclination of the anchor, embedment depth and subsoil condition. Therefore, the required pullout capacity of plate anchor systems can be enhanced by increasing the size and embedment depth of the anchor or improving backfill strength and density (Ganesh and Sahoo, 2016;Kumar and Bhoi, 2009;Liu et al, 2011;Rahimi, et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…The uplift capacity of a buried anchor typically comprises of the weight of soil within the failure zone as well as frictional and/or cohesive resistance along the realized failure surface. The required uplift capacity of these systems can be enhanced by increasing the size and embedment depth of the anchor or improving backfill strength and density (Choudhury and Subba Rao, 2005;Kumar and Bhoi, 2009;Song et al, 2009;Vishwas and Kumar, 2011;Liu et al, 2012;Wang and O'Loughlin, 2014;Tian et a., 2014;Kumar, 2014, 2015;Ganesh and Sahoo, 2016;Khan et al, 2017;Moayedi and Mosallanezhad, 2017;Shin et al, 2016).…”
Section: Introductionmentioning
confidence: 99%
“…These anchors can be installed by excavating the ground to the required depth followed by back filling and compacting with a good quality soil (Kame et al 2012). A number of studies are available in literature on estimating the horizontal pullout resistance and uplift capacity of anchors, Das and Seeley (1975), Rowe (1978), Ovesen (1981), Dickin (1988), Geddes (1987,1989), Sarac (1989), Niroumand (2010), , Bildik and Laman (2010), Kumar and Bhoi (2009). However the literature pertaining to ultimate pullout resistance of group of two square anchors embedded in sand in a vertical plane is rather limited, and more often the studies are limited to analytical or experimental evaluation of single anchors.…”
Section: Introductionmentioning
confidence: 99%