Rotational Restraint of Pile Caps during Lateral Loading |
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Authors: | Robert L. Mokwa J. Michael Duncan |
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Affiliation: | 1Assistant Professor, Dept. of Civil Engineering, Montana State Univ., 205 Cobleigh Hall, Bozeman, MT?59717. 2University Distinguished Professor, Dept. of Civil and Environmental Engineering, 200 Patton Hall, Virginia Tech., Blacksburg, VA?24060.
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Abstract: | A pure fixed-head (zero-rotation) condition at the top of a group of laterally loaded piles is seldom achievable in the field, even when piles are installed in a group that is “rigidly” constrained by a stiff concrete pile cap. Assuming complete fixity during design (zero rotation at the pile head) can result in underestimated values of pile-head deflection, and incorrect estimates of the magnitude and the location of maximum bending moments. A simple and practical approach is presented for estimating the moment restraint that is provided by the pile cap at the top of a pile group. The moment restraint, represented by the rotational restraint coefficient (KMθ), serves as a boundary condition for analyzing groups of laterally loaded piles. Full-scale field tests performed on two pile groups with concrete pile caps show that the proposed method for estimating rotational restraint provides results that are in good agreement with measured field performance. |
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Keywords: | Lateral loads Pile groups Pile caps Rotation |
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