How Soils Can Help Predict High Rebound of Prestressed Concrete Displacement Piles

Autor:	Paul J. Cosentino
Rok vydání:	2020
Předmět:	Prestressed concrete law Soil water Geotechnical engineering Displacement (orthopedic surgery) Building and Construction Geotechnical Engineering and Engineering Geology Geology Civil and Structural Engineering law.invention
Zdroj:	DFI Journal The Journal of the Deep Foundations Institute. 14
ISSN:	1937-5255 1937-5247
DOI:	10.37308/dfijnl.20190617.206
Popis:	Excessive pile rebound has been occurring for over a decade, when high displacement prestressed concrete piles are driven mostly with single acting diesel hammers in Florida’s low permeability very fine sand blends. This very complex engineering phenomenon, which occurs due to interactions between the soil, pile, and hammer; typically is observed at depths great than approximately 15 m (50 feet). Rebound greatly diminishes the end bearing capacities, causing various problems and significant cost increases. Findings from several research studies have produced some obvious trends based on grain size, Atterberg limits and cyclic triaxial testing. Excessive rebound was categorized as movements exceeding 12.5 mm (0.5-inches) while no-rebound was considered to be less than 6 mm (0.25-inches). Coarse grained rebound soils were very fine sands, passing the number 100 sieve, with silts and clays. According to the Unified Soils Classification System they classified as SM and have silt contents between about 20 and 40%. Cohesive rebound soils were highly plastic clays, classified as CH and also have silt contents between about 20 and 40%. Cyclic triaxial testing indicated that rebound soils are much more resilient than no-rebound soils, requiring many more cycles to produce strains of 2.5, 5, 10 and 15 percent.
Databáze:	OpenAIRE
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