Pore-Water Pressure and Shear Characteristics of Lateritic Clay under Different Temperature Paths

Abstract The thermal-induced pore-water pressure and shear characteristics of lateritic clay under different temperature paths without drainage are studied through a series of temperature-controlled undrained triaxial shear tests with temperatures ranging from 5°C to 50°C. The effects of different t...

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Veröffentlicht in:	International journal of geomechanics 2024-12, Vol.24 (12)
Hauptverfasser:	Chen, Zhengfa, Xu, Zhifan, Xia, Pingxin
Format:	Artikel
Sprache:	eng
Schlagworte:	Bearing capacity Clay Elastic properties Heating Hydrostatic pressure Mechanical properties Modulus of elasticity Pore water pressure Pressure Pressure effects Shear strength Shear tests Shearing Technical Note Technical Notes Temperature Temperature effects Void ratio Water Water pressure
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creator	Chen, Zhengfa Xu, Zhifan Xia, Pingxin
description	Abstract The thermal-induced pore-water pressure and shear characteristics of lateritic clay under different temperature paths without drainage are studied through a series of temperature-controlled undrained triaxial shear tests with temperatures ranging from 5°C to 50°C. The effects of different temperature paths under undrained conditions on pore-water pressure and shear behavior are discussed. The results indicate that monotonic heating and multistage heating have equivalent effects on the accumulation of pore-water pressure when the initial temperature and target temperature are the same. The initial positive pore-water pressure induced by heating leads to a lower bearing capacity during the early stage of the shearing process. The secant elastic modulus (εa = 0.1%) shows a significant decrease with increasing temperature, suggesting that mechanical properties at small strains are influenced by temperature. However, undrained heating has no influence on the shear strength finally. Furthermore, under undrained conditions, temperature variations do not alter the unique relationships among void ratio, deviator stress, and mean effective stress.
doi_str_mv	10.1061/IJGNAI.GMENG-10246
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The effects of different temperature paths under undrained conditions on pore-water pressure and shear behavior are discussed. The results indicate that monotonic heating and multistage heating have equivalent effects on the accumulation of pore-water pressure when the initial temperature and target temperature are the same. The initial positive pore-water pressure induced by heating leads to a lower bearing capacity during the early stage of the shearing process. The secant elastic modulus (εa = 0.1%) shows a significant decrease with increasing temperature, suggesting that mechanical properties at small strains are influenced by temperature. However, undrained heating has no influence on the shear strength finally. 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The effects of different temperature paths under undrained conditions on pore-water pressure and shear behavior are discussed. The results indicate that monotonic heating and multistage heating have equivalent effects on the accumulation of pore-water pressure when the initial temperature and target temperature are the same. The initial positive pore-water pressure induced by heating leads to a lower bearing capacity during the early stage of the shearing process. The secant elastic modulus (εa = 0.1%) shows a significant decrease with increasing temperature, suggesting that mechanical properties at small strains are influenced by temperature. However, undrained heating has no influence on the shear strength finally. 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The effects of different temperature paths under undrained conditions on pore-water pressure and shear behavior are discussed. The results indicate that monotonic heating and multistage heating have equivalent effects on the accumulation of pore-water pressure when the initial temperature and target temperature are the same. The initial positive pore-water pressure induced by heating leads to a lower bearing capacity during the early stage of the shearing process. The secant elastic modulus (εa = 0.1%) shows a significant decrease with increasing temperature, suggesting that mechanical properties at small strains are influenced by temperature. However, undrained heating has no influence on the shear strength finally. Furthermore, under undrained conditions, temperature variations do not alter the unique relationships among void ratio, deviator stress, and mean effective stress.</abstract><cop>Reston</cop><pub>American Society of Civil Engineers</pub><doi>10.1061/IJGNAI.GMENG-10246</doi></addata></record>
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subjects	Bearing capacity Clay Elastic properties Heating Hydrostatic pressure Mechanical properties Modulus of elasticity Pore water pressure Pressure Pressure effects Shear strength Shear tests Shearing Technical Note Technical Notes Temperature Temperature effects Void ratio Water Water pressure
title	Pore-Water Pressure and Shear Characteristics of Lateritic Clay under Different Temperature Paths
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