Abstract
The present work deals with helical piles that extensively used in foundations for structures subjected to both compressive and tensile forces. The behavior of square helical piles models (5 × 5) mm, embedded in expansive soil overlaying a layer of well compacted sandy soil, (single and group of helical piles) were investigated and compared with ordinary piles. Model tests are performed with helical pile length 150, 200, and 300 mm and helix diameters 15 and 20 mm. Helical piles with one helix and double helix were considered. The pattern of helical piles group models consists of four piles in a square arrangement. Thirty-six models of helical pile groups embedded into the expansive soil were performed. It is found that the pile length, number of helix, and helix diameter have a great effect on the amount and rate of uplift movement of helical piles embedded in expansive soil. The deeper helical piles with higher L/D ratios showed greater pullout capacity comparing to the shallower piles. The maximum upward movement of helical piles group is less than that of single pile.
Highlights
Expansive soil exhibit significant volume changes due to soil moisture content changes
The uplift movement of soil surface is preceded the uplift movement of helical piles and more than 80% of its value take place during the first 10 days of saturation
The relation of upward movement of helical piles with time is approximately similar to all models except that helical piles with length to diameter ratio (L/D) (27) reached 80% of maximum uplift movement during first 20 days while that of L/D (35) and (53) reached during (20–30) days and (25–35) days respectively
Summary
Expansive soil exhibit significant volume changes due to soil moisture content changes. Foundations constructed on this soil are subjected to considerable damage due to swelling [8]. Soils with high plasticity properties experienced large volume changes during swelling and shrinkage strain characterizations. Helical piles are an effective foundation system in expansive soil and bedrock. Helical pile foundations are used for both new construction and repair of existing foundation in areas with expansive soils [4]. Screw piles show good promise as a one of type anchor requiring very simple installation techniques [6]
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