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    Journals >Journal of the Chinese Ceramic Society >Volume 52 >Issue 11 >Page 3606 > Article
    • Journal of the Chinese Ceramic Society
    • Vol. 52, Issue 11, 3606 (2024)
    Interfacial Shear Strength Between Fiber-Reinforced Cement-Based Materials (FRCM) and Different Substrates and Water Absorption Properties of FRCM
    XUE Shanbin1, JING Fengjie1, WANG Dan1, ZHANG Peng1,2,*, and GAO Xiaojian3
    Author Affiliations
  • 1School of Civil Engineering, Qingdao University of Technology, Qingdao 266525, Shandong, China
  • 2Qingdao University of Technology, Shandong Blue Economic Zone Engineering Construction and Safety Collaborative Innovation Center, Qingdao 266525, Shandong, China
  • 3School of Civil Engineering, Harbin Institute of Technology, Harbin 150001, China
    • show less
    DOI: 10.14062/j.issn.0454-5648.20230744 Cite this Article
    XUE Shanbin, JING Fengjie, WANG Dan, ZHANG Peng, GAO Xiaojian. Interfacial Shear Strength Between Fiber-Reinforced Cement-Based Materials (FRCM) and Different Substrates and Water Absorption Properties of FRCM[J]. Journal of the Chinese Ceramic Society, 2024, 52(11): 3606 Copy Citation Text show less
    References

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    [3] QASIM M, LEE C K, ZHANG Y X. An experimental study on interfacial bond strength between hybrid engineered cementitious composite and concrete[J]. Constr Build Mater, 2022, 356: 129299.

    [4] LUO Q, QIN T, CHEN Z, et al. The influence of moisture and epoxy bonding agents on interfacial behavior between normal concrete substrate and ultrahigh performance concrete as a repair material: Experimental and molecular dynamics study[J]. Constr Build Mater, 2023, 372: 130779.

    [5] GUO S Y, ZHANG X, CHEN J Z, et al. Mechanical and interface bonding properties of epoxy resin reinforced Portland cement repairing mortar[J]. Constr Build Mater, 2020, 264: 120715.

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    [8] ZHANG Y, ZHANG C Y, ZHU Y P, et al. An experimental study: Various influence factors affecting interfacial shear performance of UHPC-NSC[J]. Constr Build Mater, 2020, 236: 117480.

    [9] MOMAYEZ A, EHSANI M R, RAMEZANIANPOUR A A, et al. Comparison of methods for evaluating bond strength between concrete substrate and repair materials[J]. Cem Concr Res, 2005, 35(4): 748–757.

    [10] ZANOTTI C, RANDL N. Are concrete-concrete bond tests comparable?[J]. Cem Concr Compos, 2019, 99: 80–88.

    [11] BEUSHAUSEN H. The influence of concrete substrate preparation on overlay bond strength[J]. Mag Concr Res, 2010, 62(11): 845–852.

    [12] BENTZ D P, DE LA VARGA I, MUOZ J F, et al. Influence of substrate moisture state and roughness on interface microstructure and bond strength: Slant shear vs. pull-off testing[J]. Cem Concr Compos, 2018, 87: 63–72.

    [13] ZHANG Y, ZHU P, LIAO Z Q, et al. Interfacial bond properties between normal strength concrete substrate and ultra-high performance concrete as a repair material[J]. Constr Build Mater, 2020, 235: 117431.

    [16] HE Y, ZHANG X, HOOTON R D, et al. Effects of interface roughness and interface adhesion on new-to-old concrete bonding[J]. Constr Build Mater, 2017, 151: 582–590.

    [17] ZHANG S H, LI Q Y, YUAN Q, et al. Effect of roughness on bonding performance between Portland cement concrete and magnesium phosphate cement concrete[J]. Constr Build Mater, 2022, 323: 126585.

    [18] FENG S, XIAO H G, GENG J S. Bond strength between concrete substrate and repair mortar: Effect of fiber stiffness and substrate surface roughness[J]. Cem Concr Compos, 2020, 114: 103746.

    [19] SHEN Y J, WANG Y Z, YANG Y, et al. Influence of surface roughness and hydrophilicity on bonding strength of concrete-rock interface[J]. Constr Build Mater, 2019, 213: 156–166.

    [20] CHEN Y, YANG J F, LI M H, et al. Effects of roughness on shear properties and acoustic emission characteristics of bonded Rock- Concrete interfaces[J]. Constr Build Mater, 2023, 398: 132405.

    [22] JIANG Q, YANG Y, YAN F, et al. Deformation and failure behaviours of rock-concrete interfaces with natural morphology under shear testing[J]. Constr Build Mater, 2021, 293: 123468.

    [23] PIASTA W, ZARZYCKI B. The effect of cement paste volume and w/c ratio on shrinkage strain, water absorption and compressive strength of high performance concrete[J]. Constr Build Mater, 2017, 140: 395–402.

    [24] ZHAO H T, DING J, HUANG Y Y, et al. Investigation on sorptivity and capillarity coefficient of mortar and their relationship based on microstructure[J]. Constr Build Mater, 2020, 265: 120332.

    [25] TAYEH B A, ABU BAKAR B H, MEGAT JOHARI M A, et al. Mechanical and permeability properties of the interface between normal concrete substrate and ultra high performance fiber concrete overlay[J]. Constr Build Mater, 2012, 36: 538–548.

    [26] XUE S B, ZHANG P, LEHMANN E H, et al. Neutron radiography of water exchange across the interface between old and fresh mortar[J]. Measurement, 2021, 183: 109882.

    [27] XUE S B, MENG F Q, ZHANG P, et al. Influence of substrate moisture conditions on microstructure of repair mortar and water imbibition in repair-old mortar composites[J]. Measurement, 2021, 183: 109769.

    [28] LUKOVIC M, YE G. Effect of moisture exchange on interface formation in the repair system studied by X-ray absorption[J]. Materials, 2015, 9(1): 2.

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    [33] LI Z X, WANG X, YAN W L, et al. Physical and mechanical properties of gypsum-based composites reinforced with basalt, glass, and PVA fibers[J]. J Build Eng, 2023, 64: 105640.

    [34] BEHFOROUZ B, TAVAKOLI D, GHARGHANI M, et al. Bond strength of the interface between concrete substrate and overlay concrete containing fly ash exposed to high temperature[J]. Structures, 2023, 49: 183–197.

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    XUE Shanbin, JING Fengjie, WANG Dan, ZHANG Peng, GAO Xiaojian. Interfacial Shear Strength Between Fiber-Reinforced Cement-Based Materials (FRCM) and Different Substrates and Water Absorption Properties of FRCM[J]. Journal of the Chinese Ceramic Society, 2024, 52(11): 3606
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