Back to Search Start Over

Three-dimensional large deformation finite-element analysis of plate anchors in uniform clay

Authors :
Wang, Dong
Hu, Yuxia
Randolph, Mark F.
Source :
Journal of Geotechnical and Geoenvironmental Engineering. Feb, 2010, Vol. 136 Issue 2, p355, 11 p.
Publication Year :
2010

Abstract

Three-dimensional large deformation finite-element (FE) analyses were performed to investigate plate anchor capacity during vertical pullout. The remeshing and interpolation technique with small strain approach was expanded from two-dimensional to threedimensional conditions and coupled with the FE software, ABAQUS. A modified recovery of equilibrium in patches technique was developed to map stresses after each remeshing. Continuous pullout of rectangular plate anchors was simulated and the large deformation results for strip, circular, and rectangular anchors were compared with model test data, small strain FE results, and plastic limit solutions. Interface conditions of no breakaway (bonded) and immediate breakaway (no tension) were considered at the anchor base. The effects of anchor roughness, aspect ratio, soil properties, and soil overburden pressure were investigated. It was found that the anchor roughness had minimal effect on anchor performance. For square and circular deep anchors under immediate breakaway conditions, the maximum uplift capacity increased with soil elastic modulus, which suggests that lower bound limit analysis and small strain FE analysis may overestimate the capacity. The soil beneath the anchor base separates from the anchor at a certain embedment depth near the mudline, once tensile stresses were generated. The ratio of separation depth to anchor width was found to increase linearly with the ratio of soil undrained shear strength to the product of soil effective unit weight and anchor width and was independent of the initial anchor embedment depth. DOI: 10.1061/(ASCE)GT. 1943-5606.0000210 CE Database subject headings: Plate anchor; Large deformation analysis; Finite element method; Capacities; Clays. Author keywords: Anchors; Soil deformation; Finite-element method; Clays; Three-dimensional analysis.

Details

Language :
English
ISSN :
10900241
Volume :
136
Issue :
2
Database :
Gale General OneFile
Journal :
Journal of Geotechnical and Geoenvironmental Engineering
Publication Type :
Academic Journal
Accession number :
edsgcl.219374122