Hot-rolled, heavy-gauge sheet piling has advantages over other available products including concrete, vinyl, and fiberglass-reinforced polymers for bulkhead and deep-excavation applications.
For seawall bulkheads, sheet piling provides the only practical structural solution available. For deep excavations, sheet piling typically provides the most economical solution for the conditions encountered in braced trench and cofferdam construction. A sheet piling wall consists of a continuous row of interlocking vertical segments that form essentially a straight wall that is capable of acting integrally. There are two primary types of sheet piling wall structures: cantilevered and anchored.
Walers are commonly used in conjunction with tiebacks to construct anchored sheet piling walls. Tiebacks are typically installed as either ground anchors or anchor rods secured to deadmen. Cofferdams are a special form of sheet piling construction in which the method of resistance to soil forces is provided through the ability of the circular footprint to function either as a compression or tension ring.
The design of sheet piling walls involves the evaluation of loads imposed by soil, water, surcharging, and other externally applied forces. The analysis of a sheet piling wall includes a determination of the required depth of embedment, sizing of any anchorage systems, and verification that the actual flexural stresses do not exceed the allowable. Safety factors are typically included in the determination of the minimum embedment depth.
This article comes from asce-library edit released