Structural load calculations for helical pier foundations involve a variety of geotechnical, mechanical, and site-specific factors to determine a pier’s safe weight-bearing capacity. According to industry guidelines followed by ACN Construction, these calculations include:

Geotechnical and Environmental Variables

• Soil Bearing Strength: The distinction between cohesive soils (clays) and granular soils (sands/gravels) is fundamental. Calculations must account for the soil’s internal cohesion and friction angle.
• Soil Composition: The presence of loose, saturated, or soft soils reduces capacity, while stiff or dense soils increase it.
• Site Hydrology: Groundwater conditions and seasonal water table fluctuations are evaluated.
• Frost Action: Frost depth is considered to ensure long-term stability against Colorado’s freeze-thaw cycles.

Mechanical and Design Determinants

• Helix Plate Geometry: This includes the size (diameter), number, and spacing of the helical plates.
• Pier Shaft Specifications: The diameter and wall thickness of the shaft provide structural strength and buckling resistance.
• Embedment Depth: The depth to which the piers extend into competent bearing strata.

Real-Time and Structural Variables

• Installation Torque: Structural engineers use a torque-to-capacity correlation, where the resistance encountered during installation indicates the actual load capacity.
• Building Loads: The calculation must account for the specific structure’s dead, live, and lateral loads.
• Factor of Safety: Engineers typically apply safety factors of 2 to 3 to ensure the design meets local code requirements and settlement limits.