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    Nuclear magnetic resonance analysis of freeze-thaw damage in natural pumice concrete

    New search for: Xiaoxiao Wang
    New search for: Xiangdong Shen
    New search for: Hailong Wang
    New search for: Chu Gao
    New search for: Tong Zhang

    This paper presents an analysis of the damage propagation features of the pore structure of natural pumice lightweight aggregate concrete (LWC) under freeze-thaw cyclic action. After freeze-thaw cycling, we conducted nuclear magnetic resonance (NMR) tests on the concrete and acquired the porosity, distribution of transverse relaxation time T2, and magnetic resonance imaging (MRI) results. The results showed the following. The T2 distribution of the LWC prior to freeze-thaw cycling presented four peaks representative of a preponderance of small pores. After 50, 100, 150, and 200 freeze-thaw cycles, the total area of the T2 spectrum and the porosity increased significantly. The MRI presented the changing spatial distribution of pores within the LWC during freeze-thaw cycling. Ultrasonic testing technology was applied simultaneously to analyze the NMR results, which verified that the new NMR technology demonstrated high accuracy and practicability for research regarding freeze-thaw concrete damage.

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    Nuclear magnetic resonance analysis of freeze-thaw damage in natural pumice concrete

    New search for: Xiaoxiao Wang
    New search for: Xiangdong Shen
    New search for: Hailong Wang
    New search for: Chu Gao
    New search for: Tong Zhang

    This paper presents an analysis of the damage propagation features of the pore structure of natural pumice lightweight aggregate concrete (LWC) under freeze-thaw cyclic action. After freeze-thaw cycling, we conducted nuclear magnetic resonance (NMR) tests on the concrete and acquired the porosity, distribution of transverse relaxation time T2, and magnetic resonance imaging (MRI) results. The results showed the following. The T2 distribution of the LWC prior to freeze-thaw cycling presented four peaks representative of a preponderance of small pores. After 50, 100, 150, and 200 freeze-thaw cycles, the total area of the T2 spectrum and the porosity increased significantly. The MRI presented the changing spatial distribution of pores within the LWC during freeze-thaw cycling. Ultrasonic testing technology was applied simultaneously to analyze the NMR results, which verified that the new NMR technology demonstrated high accuracy and practicability for research regarding freeze-thaw concrete damage.

    Access

    Download

    Nuclear magnetic resonance analysis of freeze-thaw damage in natural pumice concrete

    New search for: Xiaoxiao Wang
    New search for: Xiangdong Shen
    New search for: Hailong Wang
    New search for: Chu Gao
    New search for: Tong Zhang

    This paper presents an analysis of the damage propagation features of the pore structure of natural pumice lightweight aggregate concrete (LWC) under freeze-thaw cyclic action. After freeze-thaw cycling, we conducted nuclear magnetic resonance (NMR) tests on the concrete and acquired the porosity, distribution of transverse relaxation time T2, and magnetic resonance imaging (MRI) results. The results showed the following. The T2 distribution of the LWC prior to freeze-thaw cycling presented four peaks representative of a preponderance of small pores. After 50, 100, 150, and 200 freeze-thaw cycles, the total area of the T2 spectrum and the porosity increased significantly. The MRI presented the changing spatial distribution of pores within the LWC during freeze-thaw cycling. Ultrasonic testing technology was applied simultaneously to analyze the NMR results, which verified that the new NMR technology demonstrated high accuracy and practicability for research regarding freeze-thaw concrete damage.

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    Title:

    Nuclear magnetic resonance analysis of freeze-thaw damage in natural pumice concrete

    Contributors:

    Xiaoxiao Wang (author) / Xiangdong Shen (author) / Hailong Wang (author) / Chu Gao (author) / Tong Zhang (author)

    Published in:

    Materiales de Construccion, Vol 66, Iss 322, Pp e087-e087 (2016)

    Publication date:

    2016

    ISSN:

    0465-2746 , 1988-3226

    DOI:

    https://doi.org/10.3989/mc.2016.09014

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    natural pumice concrete , damage extension , nuclear magnetic resonance (nmr) , porosity , relaxation time , Materials of engineering and construction. Mechanics of materials , TA401-492

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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