CHANCE® Foundation Solutions recently wrote a blog post arguing why you should use at least 2 methods to determine helical pile capacity. The capacity of a helical pile must equal or exceed the factored load that the pile is required to support. Three methods are mentioned below to determine it.
For a statistically reliable capacity, Hubbell recommends at least 2 of the 3 methods be used when installing CHANCE helical piles. For example, torque correlation is often used to verify the capacity derived theoretically from soil data using bearing capacity in soil. When soil data is limited or absent, a load test can be used to verify the capacity derived empirically from the installation torque data.
This is a theoretical method that requires soil strength data as input.
The required information for bearing capacity is derived from soils reports and soil bore logs. The soils report provides information such as soil classification, soil profile, ground water, unit weight, and any noteworthy findings that the driller observed. Soils are typically classified as either fine grained or granular soils. Fine grained soils are clays and silts. Granular soils are sands and gravels. Strength data for soils are typically derived during drilling from the Standard Penetration Test per ASTM D-1586, or from lab tests on samples taken from the bore hole.
The bearing capacity in soil is determined using well established engineering principles and design methods. These methods have been incorporated into HeliCAP® v3.0 Helical Capacity Design Software. Developed by Hubbell and CHANCE engineers, HeliCAP calculates the theoretical capacity and installation torque of helical anchors and piles in soil. The user inputs soil strength data and helical anchor/pile configuration, and the software quickly provides capacity information.
This is an empirical method which means it is based on observation and experience. Torque is related to load capacity with a simple multiplier and is often used when soils information is limited or absent. Torque correlation is also known as the torque-to-ultimate holding capacity relationship.
This method was developed based on 50+ years of experience and observation by CHANCE engineers and customers. The principle is that as a helical pile is installed (screwed) into increasingly denser/harder soil, the resistance to installation, or torque, will increase. Likewise, the higher the installation torque, the greater the axial capacity of the installed helical pile.
The relationship between installation torque and ultimate load capacity is expressed with a simple formula: Qult = Kt x T
The torque factor (Kt) is used as a multiplier based on the type and size of the helical pile shaft. The torque factor Kt is inversely related to shaft size, meaning the bigger the helical pile shaft, the smaller the Kt torque factor. CHANCE Type SS, or Square Shaft helical piles have the largest torque factor; meaning Type SS will provide greater load capacity for a given installation torque.
This is direct capacity measurement by conducting a full-scale load test on an installed helical pile. A load test is the most accurate way to determine capacity, but it is also the most expensive.
A typical compression load test set-up reaction frame consists of a central load beam, and two spreader beams. The frame is held down by reaction anchors, which are located on the corners of the spreader beams as shown. The hydraulic jack that applies the compression load is located below the load beam and rests on the helical pile being tested.
During the test, compression load is applied in increments and held for specific time intervals. The test procedure followed generally complies with ASTM D1143 Standard Test Method for Piles under Static Axial Compressive Load. The load test continues until the pre-determined maximum test load is reached, or the pile cannot resist any further loading. Pile settlement, or movement is measured and recorded at every load increment. The results of the test are then used to determine the load capacity of the pile.
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