A series of static cyclic lateral load tests were performed on a full-scale 4×3 pile group driven into a cohesive soil profile. Twelve 324-mm steel pipe piles were attached to a concrete pile cap 5.18×3.05 m in plan and 1.12 m in height. Pile–soil–pile interaction and passive earth pressure provided lateral resistance. Seven lateral load tests were conducted in total; four tests with backfill compacted in front of the pile cap; two tests without backfill; and one test with a narrow trench between the pile cap and backfill soil. The formation of gaps around the piles at larger deflections reduced the pile–soil–pile interaction resulting in a degraded linear load versus deflection response that was very similar for the two tests without backfill and the trenched test. A typical nonlinear backbone curve was observed for the backfill tests. However, for deflections greater than 5 mm, the load-deflection behavior significantly changed from a concave down shape for the first cycle to a concave up shape for the ...
[2]
J. Michael Duncan,et al.
Experimental Evaluation of Lateral-Load Resistance of Pile Caps
,
2001
.
[3]
Bruce L. Kutter,et al.
LONGITUDINAL STRENGTH AND STIFFNESS BEHAVIOR OF BRIDGE ABUTMENTS
,
1996
.
[4]
edited by Hans F. Winterkorn Hsai-Yang Fang.
Foundation Engineering Handbook
,
2017
.
[5]
K. Terzaghi.
Theoretical Soil Mechanics
,
1943
.
[6]
Awtar Singh,et al.
Relative Density and Relative Compaction
,
1971
.
[7]
Kyle M. Rollins,et al.
Lateral Resistance of Full-Scale Pile Cap with Gravel Backfill
,
2002
.
[8]
Robert J. Brungraber,et al.
Closure of "Pile Cap Soil Interaction from Full-Scale Lateral Load Tests"
,
1979
.
[9]
J. G. Potyondy.
Skin Friction between Various Soils and Construction Materials
,
1961
.