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    Mechanical properties of tire chip and cement stabilised red clay

    New search for: Wang, Minying
    New search for: Li, Mingdong
    New search for: Dai, Renhui
    New search for: Zhao, Shengfeng
    New search for: Yin, Hanshuo
    New search for: Qian, Qihu

    Reutilisation of waste tire chips to improve red clay is of great significance to environmental protection. The mechanical properties of tire chip and cement stabilised red clay (TCCSRC) at different proportions were investigated through compaction, compression, unconfined compression strength (UCS), and direct shear tests. The UCS and shear strength of TCCSRCs with different proportions were tested and analysed at their optimal moisture content (OMC). The results indicated that the porosity ratio, UCS, shear strength, and cohesion of TCCSRC decreased with increasing tire chip content. The addition of cement increased the sample UCS and shear strength. When the content of tire crumb is 20% and the cement content is 5%, the specimens show good performance in all basic properties, including UCS can reach 1034.3 kPa; the shear strength can reach 46.7 kPa when the axial pressure is 150 kPa.

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    Mechanical properties of tire chip and cement stabilised red clay

    New search for: Wang, Minying
    New search for: Li, Mingdong
    New search for: Dai, Renhui
    New search for: Zhao, Shengfeng
    New search for: Yin, Hanshuo
    New search for: Qian, Qihu

    Reutilisation of waste tire chips to improve red clay is of great significance to environmental protection. The mechanical properties of tire chip and cement stabilised red clay (TCCSRC) at different proportions were investigated through compaction, compression, unconfined compression strength (UCS), and direct shear tests. The UCS and shear strength of TCCSRCs with different proportions were tested and analysed at their optimal moisture content (OMC). The results indicated that the porosity ratio, UCS, shear strength, and cohesion of TCCSRC decreased with increasing tire chip content. The addition of cement increased the sample UCS and shear strength. When the content of tire crumb is 20% and the cement content is 5%, the specimens show good performance in all basic properties, including UCS can reach 1034.3 kPa; the shear strength can reach 46.7 kPa when the axial pressure is 150 kPa.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Mechanical properties of tire chip and cement stabilised red clay

    New search for: Wang, Minying
    New search for: Li, Mingdong
    New search for: Dai, Renhui
    New search for: Zhao, Shengfeng
    New search for: Yin, Hanshuo
    New search for: Qian, Qihu

    Reutilisation of waste tire chips to improve red clay is of great significance to environmental protection. The mechanical properties of tire chip and cement stabilised red clay (TCCSRC) at different proportions were investigated through compaction, compression, unconfined compression strength (UCS), and direct shear tests. The UCS and shear strength of TCCSRCs with different proportions were tested and analysed at their optimal moisture content (OMC). The results indicated that the porosity ratio, UCS, shear strength, and cohesion of TCCSRC decreased with increasing tire chip content. The addition of cement increased the sample UCS and shear strength. When the content of tire crumb is 20% and the cement content is 5%, the specimens show good performance in all basic properties, including UCS can reach 1034.3 kPa; the shear strength can reach 46.7 kPa when the axial pressure is 150 kPa.

    Access

    Check access
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    Order at Subito €

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    Title:

    Mechanical properties of tire chip and cement stabilised red clay

    Contributors:

    Wang, Minying (author) / Li, Mingdong (author) / Dai, Renhui (author) / Zhao, Shengfeng (author) / Yin, Hanshuo (author) / Qian, Qihu (author)

    Published in:

    Geomechanics and Geoengineering ; 19 ; 868-878

    Publication date:

    2024-09-02

    Size:

    11 pages

    ISSN:

    1748-6025 , 1748-6033

    DOI:

    https://doi.org/10.1080/17486025.2024.2324876

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Waste tire chips , shear strength , compressibility , deformation , red clay

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