Understanding fine soil deformation in pavements: a master curve-based investigation for Amazon soils
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The performance of soils and granular materials must be considered in relation to the main
deterioration mechanisms in pavement structure design. This study aims to evaluate the
use of fine-grained soils as unbound materials in pavement applications. For this purpose,
physical, chemical, and mechanical characterization tests were conducted. Repeated load
triaxial tests were performed following current Brazilian standards and considering different
soil saturation conditions. Five widely used mathematical models were employed to assess
the resilient modulus under different moisture conditions, with the Compound and Universal
models showing the best correlations. As moisture content increased, a reduction in resilient
modulus was observed at higher stress levels. Regarding permanent deformation, the master
curve approach was applied to obtain the parameters adopted as inputs for simulations
within the mechanistic-empirical pavement design software, FlexPaveBR version 2.1.5. The
model results adequately represented the plastic behavior of the analyzed conditions. The
simulation results indicated differences between considering bonded and unbonded granular
layers. The results also indicated that the use of fine-grained soils without stabilization
can be considered for subbase layers, provided that triaxial testing is conducted and the
materials demonstrate satisfactory performance under mechanistic-empirical evaluation.
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MOTA, Bruno Cavalcante et al. Understanding fine soil deformation in pavements: a master curve-based investigation for amazon soils. Soils & Rocks, São Paulo, v. 49, n. 3, e2026011125, 2026. DOI: 10.28927/SR.2026.011125. Disponível em: https://soilsandrocks.com/article/2176. Acesso em: 24 jun. 2026.