A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
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 (λ) of anchors and friction angle (ϕ) of soil mass, was examined in detail. The results were presented in terms of a non-dimensional efficiency factor ($ ξ_{γ} $), which was defined as the ratio of the failure load for an intervening strip anchor of a given width (B) to that of a single strip anchor plate having the same width. It was clearly noted that the magnitude of $ ξ_{γ} $ reduces quite extensively with a decrease in the spacing between the anchors. The magnitude of $ ξ_{γ} $ for a given s/B was found to vary only marginally with respect to changes in λ and ϕ. The experimental results presented in this study compare reasonably well with the theoretical and experimental data available in literature.
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 (λ) of anchors and friction angle (ϕ) of soil mass, was examined in detail. The results were presented in terms of a non-dimensional efficiency factor ($ ξ_{γ} $), which was defined as the ratio of the failure load for an intervening strip anchor of a given width (B) to that of a single strip anchor plate having the same width. It was clearly noted that the magnitude of $ ξ_{γ} $ reduces quite extensively with a decrease in the spacing between the anchors. The magnitude of $ ξ_{γ} $ for a given s/B was found to vary only marginally with respect to changes in λ and ϕ. The experimental results presented in this study compare reasonably well with the theoretical and experimental data available in literature.
Vertical Uplift Capacity of Equally Spaced Multiple Strip Anchors in Sand
Kumar, Jyant (author) / Bhoi, Manas Kumar (author)
2008
Article (Journal)
English
Anchors , Foundations , Failure , Scale effect , Model tests , Sand
Vertical Uplift Capacity of Equally Spaced Multiple Strip Anchors in Sand
| Online Contents | 2008
Vertical Uplift Capacity of Equally Spaced Multiple Strip Anchors in Sand
| British Library Online Contents | 2009
Vertical Uplift Capacity of Equally Spaced Horizontal Strip Anchors in Sand
| Online Contents | 2009
Seismic vertical uplift capacity of strip anchors
| British Library Online Contents | 2001
Technical note - Seismic vertical uplift capacity of strip anchors
| Online Contents | 2001