Analysis of a database of instrumented static load tests on continuous flight auger piles in tropical soils
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This article assesses the behavior of full-scale static load tests (SLTs) conducted
with instrumentation for strain measurements, in order to provide insights into the pile
load transfer curves along its length. A collection of instrumented SLTs from a specific
region offers a valuable dataset for the geotechnical community, which can be leveraged for machine learning-based neural network studies and probabilistic-statistical
analysis, ultimately enhancing the reliability of regional semi-empirical methods. This
study presents an analysis of a database containing the results of 80 instrumented SLTs
conducted on CFA (continuous flight auger) piles in the metropolitan area of Goiânia, Goiás, Brazil, spanning from 2016 to 2022. It establishes correlations between
the pile’s maximum skin friction (ql
max) and soil resistance, as well as between the pile
shaft and pile base resistances, and relative displacement at the pile-soil interface (δint).
The geotechnical surveys accompanying each SLT are also included in the database
under examination, aiding in the definition of a representative geotechnical profile of
Goiânia’s soil. The ql
max values derived from the database exhibit significant dispersion
compared to the semi-empirical methods commonly employed in Brazil. Additionally,
these values span a broad range of δint, with considerably lower values for the superficial,
porous, and structured layer of sandy clay compared to the deeper layers.
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CRUZ JÚNIOR, Aleones José da et al. Analysis of a database of instrumented static load tests on continuous flight auger piles in tropical soils. REM: international engineering journal, Ouro Preto, v. 78, n. 2, e230128, 2025. DOI: 10.1590/0370-44672023780128. Disponível em: https://www.scielo.br/j/remi/a/7FKhHBFc6V8BsMhyYN5mdzN/?lang=en. Acesso em: 25 jun. 2026.