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Braced Excavations/Cross-lot

Cross-Lot / Braced Excavations: Information - Use - Installation Sequense

DeepEX software can be used for the design of retaining walls supported by tiebacks or rock anchors. This section examines the use of cross-lots / internal bracing in deep excavation design, as well as, the construction sequence.


Figure: Braced Excavation Model in DeepEX.

Use of Cross-Lots / Braced Excavations

Braced excavations can be easily designed with DeepEX software. Cross-lot or internal bracing transfers the lateral earth (and water pressures) between opposing walls through compressive struts. Rakers resting on a foundation mat or rock offer another internal bracing alternative. Typically the struts are either pipe or I- beam sections and are usually preloaded to provide a very stiff system. Installation of the bracing struts is done by excavating soil locally around the strut and only continuing the excavation once preloading is complete. The struts typically rest on a series of wale beams that distribute the strut load to the diaphragm wall.


Figure: Cross-lot supported excavation NYU Medical Center, New York.

Pre-loading ensures a rigid contact between interacting members and is accomplished by inserting a hydraulic jack as each side of an individual pipe strut between the wale beam and a special jacking plate welded to the strut. The strut load can either be measured with strain gages or can be estimated using equations of elasticity by measuring the increased separation between the wale and the strut.


Figure:  (a) preloading arrangement, and (b) measured brace stiffness (Xanthakos, 1994).

In some earlier projects the struts were not preloaded, and as a result when the excavation progressed deeper the soil and the wall movements were large (C1). Thus it has become standard practice to preload struts in order to minimize wall movements. Cross-lot bracing makes sense in narrow excavations (60ft to 120ft) when tieback installation is not feasible. The struts can bend excessively under their own weight if the excavation spacing is too large. In addition, special provisions have to be taken to account for thermal expansion and contraction of the struts.

The typical strut spacing is in the range of 15ft, both in the vertical and the horizontal direction. This is larger than the typical spacing when tiebacks are used, because the pre-loading levels are much higher. A clear benefit of using struts is that there are no tieback openings in the slurry wall, thus eliminating one source of leakage.

Excavation sequence in cross-lot excavations

Typically, the following sequence isfollowed in the construction of braced excavations:

1. Create a V-cut initial cantilevel excavation.

2. Strut installation and pre-loading in small trenches in soil berms.

3. V-cut excavation to next level and strut installation. This step is repeated for all designed strut levels.

4. Excavation to final grade.


Figure: Typical Cross-Lot Sequence

Diaphragm (Slurry) Wall Braced with Struts - 2D Section Design and Optimization


Diaphragm (Slurry) Wall Braced with Struts - 3D Model Design


Example: Soldier Pile Wall Braced with Rakers and a Heelblock



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DeepEX - Shoring Design Software

DeepEX - Shoring Design Software

DeepEX is the ultimate software program for design and analysis of Deep Excavations! Design any wall type and support system in the most efficient way!

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Braced Excavation Example - SPTC Walls with Struts




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