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    Effect of Heating Rate on Thermally Induced Pore Water Pressures and Volume Change of Saturated Soils

    This paper presents an analytical model relating the thermally-induced pore water pressures to the volume changes in saturated soils. In fully drained conditions, normally consolidated clays subjected to elevated temperatures undergo thermally-induced volume contractions. On the other hand, the thermally-induced pore water pressure is generated under fully undrained conditions. Fully drained or fully undrained conditions are not practical for in situ conditions as the rates of applied temperature change varies with time. The developed analytical relation was validated against experimental results showing the ability of the model to predict the thermally-induced pore water pressure and volume change versus time.

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    Effect of Heating Rate on Thermally Induced Pore Water Pressures and Volume Change of Saturated Soils

    This paper presents an analytical model relating the thermally-induced pore water pressures to the volume changes in saturated soils. In fully drained conditions, normally consolidated clays subjected to elevated temperatures undergo thermally-induced volume contractions. On the other hand, the thermally-induced pore water pressure is generated under fully undrained conditions. Fully drained or fully undrained conditions are not practical for in situ conditions as the rates of applied temperature change varies with time. The developed analytical relation was validated against experimental results showing the ability of the model to predict the thermally-induced pore water pressure and volume change versus time.

    Access

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    Effect of Heating Rate on Thermally Induced Pore Water Pressures and Volume Change of Saturated Soils

    This paper presents an analytical model relating the thermally-induced pore water pressures to the volume changes in saturated soils. In fully drained conditions, normally consolidated clays subjected to elevated temperatures undergo thermally-induced volume contractions. On the other hand, the thermally-induced pore water pressure is generated under fully undrained conditions. Fully drained or fully undrained conditions are not practical for in situ conditions as the rates of applied temperature change varies with time. The developed analytical relation was validated against experimental results showing the ability of the model to predict the thermally-induced pore water pressure and volume change versus time.

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    Title:

    Effect of Heating Rate on Thermally Induced Pore Water Pressures and Volume Change of Saturated Soils

    Contributors:

    Zeinali, Seyed Morteza (author) / Abdelaziz, Sherif L. (author)

    Conference:

    Geo-Congress 2020 ; 2020 ; Minneapolis, Minnesota

    Published in:

    Geo-Congress 2020 ; 31-39

    Publication date:

    2020-02-21

    ISBN:

    9780784482827

    DOI:

    https://doi.org/10.1061/9780784482827.004

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

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