Please use this identifier to cite or link to this item: http://repositorio.ufla.br/jspui/handle/1/33897
Title: Compressibilidade do solo e pressão de pré-consolidação: determinação, predição e interações
Other Titles: Soil compressibility and precompression stress: determination, prediction and interactions
Authors: Dias Junior, Moacir de Souza
Oliveira, Geraldo César de
Silva, Bruno Montoani
Rocha, Wellington Willian
Severiano, Eduardo da Costa
Keywords: Ensaio de compressão uniaxial
Curva de compressão do solo
Compactação do solo
Grau de compactação
Uniaxial compression test
Soil compression curve
Soil compaction
Degree of compaction
Issue Date: 26-Apr-2019
Publisher: Universidade Federal de Lavras
Citation: TASSINARI, D. Compressibilidade do solo e pressão de pré-consolidação: determinação, predição e interações. 2019. 93 p. Tese (Doutorado em Ciência do Solo)-Universidade Federal de Lavras, Lavras, 2019.
Abstract: The study of soil mechanical behavior is of great relevance in the assessment of soil compaction on agricultural systems. Most commonly, mechanical strength is evaluated from the soil compressive behavior, determined by the soil compression curve derived from uniaxial compression tests. The soil property most often associated to mechanical strength is the precompression stress (σ p ), considered an indicator of the soil load-bearing capacity. The present study aimed to assess the soil changes that take place during compression (article 1), compare different methods for determining σ p from soil compression curves (article 2), and to verify how σp may be predicted from other attributes (article 3). During compression, soil samples were subjected to both compaction and consolidation, the latter majorly related to the water tension (Ψ) of 10 kPa and higher applied loads. The compaction degree observed throughout the role applied pressure range was strongly dependent on the soil initial condition. The shape of the compression curve, whether bi-linear or sigmoid, was significantly affected by Ψ a by the sample’s initial condition. The method for determining σp and the soil attribute used for representing the compression curve interact to each other. Besides the nonlinear relation between bulk density and void ratio, method performance was also affected by the relation between the physical attribute and the applied pressure during compression, whether direct or inverse. Determination of σ p from the intersection of two linear models (defined by the first and the last three points of the soil compression curve) proved to be a viable and reliable choice. Prediction of σ p becomes more accurate when relative measures, such as the degree of compaction, are employed in the models, what reduces the effect of varying intrinsic attributes, like soil texture.
URI: http://repositorio.ufla.br/jspui/handle/1/33897
Appears in Collections:Ciência do Solo - Doutorado (Teses)



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