SME’s geotechnical experts design temporary and permanent earth retention systems for excavations.

SME’s geotechnical experts design earth retention systems for various excavations. Earth retention systems can have permanent service lives or may provide temporary shoring during construction activities. The design and construction of earth retention systems considers resisting lateral earth pressures and traffic/construction surcharges, controlling movement, draining potential water pressure, and protecting workers during construction. SME designs earth retention systems for varied applications including excavation shoring, landslide mitigation and permanent retaining walls. We routinely utilize tiebacks, shoring and bracing, steel and concrete pilings, mechanically stabilized earth (MSE) walls and underpinning for these applications.

Shoring/Bracing Design

Shoring and bracing are normally used for the temporary support of earth, water and adjacent structures when an excavation is required during construction, demolition and reconstruction projects. Shoring and bracing is necessary to protect existing construction sites, structures, buildings, roads, walkways, utilities, and workers and the public against loss of ground or caving embankments. SME’s Geotechnical services for shoring and bracing projects include:

  • Existing site condition analysis
  • Surface and subsurface soil investigations and characterizations
  • Soil borings, drilling and sampling
  • Groundwater condition analysis
  • Computation of soil lateral earth pressures
  • Structural design of walls and bracing
  • Detailed plans and specifications for bidding and construction
  • Instrumentation of wall movements 

Tieback Design

A tieback system transfers tensile loads from a retention wall to the soil or rock behind the wall using a steel bar or tendon (cable) that is anchored to the ground at one end and to the wall at the other. Use of tiebacks allows the support of very tall walls without the interference of internal bracing elements (struts and rakers). Data gathered by SME during a site investigation is used to determine the placement of anchors, their capacity, materials to be used, corrosion protection required, and the method of installation. Throughout the process, SME considers several key factors in the design of tieback anchors. These include the behavior of tiebacks under load, construction methods and the disturbance they may cause to the ground, variation of ground conditions, effects of construction on surrounding property, and environmental concerns such as freezing. Our services include:

  • Study of existing topographic maps, photos, and geologic and soil surveys
  • Soil and rock investigations
  • Corrosivity testing
  • Horizontal, vertical and lateral load investigations
  • Groundwater tests and monitoring
  • Design of tiebacks elements and connection details
  • Tieback testing and failure analysis

Steel/Concrete Piling Design

Steel and concrete pile foundations are driven into place by a pile hammer, a piece of heavy equipment that raises a weight to a certain height and drops it forcefully onto the top of the pile. The dynamic force from the falling weight drives the pile into the ground. This is repeated many times until the desired depth and capacity is reached. Steel is particularly suited to pile driving since it can resist both high compressive and tensile stresses. Driven concrete piles have to be specially reinforced to withstand being hammered with the weight.  Both static and dynamic load testing is performed to verify the capacity of the piles. SME’s services for both steel and concrete pilings include:

  • Subsurface exploration and site characterization
  • Locate groundwater level
  • Recommend the type and depth of piles
  • Estimated pile capacities and settlements
  • Pile specifications
  • Static pile load testing
  • Dynamic pile load testing (i.e., pile dynamic analyzer)

Mechanically Stabilized Earth (MSE) Wall Design

MSE walls primarily consist of soils reinforced with geo-synthetic materials (e.g. polymer geogrids). The walls can have a hard block surface or softer vegetative surface and are very cost effective solutions for many types of commercial and residential projects. SME’s geotechnical engineers possess extensive experience in all aspects of MSE evaluation, design, and construction for uses including stabilization of earthen slopes, landscape architecture, detention/retention ponds, and structure and roadway support. Our MSE services include:

  • Evaluation of subgrade soils
  • Subsurface drilling and soil sampling
  • Recommend soil parameters for design
  • MSE wall specifications
  • Design MSE walls
  • Slope stability evaluation
  • Preparation of plans and documents 

Underpinning Design

In construction, underpinning is the process of strengthening and stabilizing the foundation of an existing building or other structures when some change in the site occurs, such as excavating a basement next to an existing building. Underpinning projects range from simple support schemes to complex sequential jacking and installation procedures. Conventional underpinning is accomplished by excavating small areas underneath shallow footings and extending the foundation by placing concrete to extend the depth or breadth so the foundation either rests on a stronger soil stratum or distributes its load across a greater area. Other methods of underpinning using micro-piles or grouting techniques are also common. Underpinning is generally the best solution when movement is, or is likely to become excessive, so that the use or integrity of the building is not at risk. SME’s geotechnical services in underpinning include:

  • Evaluation of subgrade soils
  • Subsurface drilling and soil sampling
  • Assessment of types of underpinning 
  • Recommend soil parameters for design
  • Underpinning specifications
  • Design of underpinning systems
  • Preparation of plans and documents 

Service Experts

Brendan Lieske, PE

Project Engineer
Geotechnical Services

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Joseph L. Noykos, PE

Senior Project Engineer
Geotechnical Services

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