222
Views
1
CrossRef citations to date
0
Altmetric
Research Article

Influence of basalt fibre on cracking behaviour and flexural toughness of concrete under the coupled effect of fatigue load and hydrodynamic pressure

, &
Article: 2147521 | Received 22 May 2022, Accepted 09 Nov 2022, Published online: 25 Nov 2022

References

  • Armandei, M., and de Souza Sanchez Filho, E., 2017. Correlation between fracture roughness and material strength parameters in SFRCs using 2D image analysis. Construction and Building Materials, 140, 82–90.
  • Baktheer, A., and Becks, H., 2021. Fracture mechanics based interpretation of the load sequence effect in the flexural fatigue behavior of concrete using digital image correlation. Construction and Building Materials, 307, 124817.
  • Bi, J., et al., 2020. Modified the smeared crack constitutive model of fiber reinforced concrete under uniaxial loading. Construction and Building Materials, 250. doi:10.1016/j.conbuildmat.2020.118916.
  • Branston, J., et al., 2016. Influence of basalt fibres on free and restrained plastic shrinkage. Cement & Concrete Composites, 74, 182–190.
  • Chang, Y.-T., Tian, F., and Zhang, Z., 2014. Dynamic fatigue loading effects on the impermeability of different parts of concrete pavement. Journal of Wuhan University of Technology, 36, 53–57.
  • Chen, X., et al., 2020. Study of high tensile strength of natural continuous basalt fibers. Journal of Natural Fibers, 17, 214–222.
  • Cui, P., et al., 2019. 3D reconstruction of moisture damage resulted volumetric changes in porous asphalt mixture. Construction and Building Materials, 228. doi:10.1016/j.conbuildmat.2019.08.039.
  • Deak, T., and Czigany, T., 2009. Chemical composition and mechanical properties of basalt and glass fibers: a comparison. Textile Research Journal, 79, 645–651.
  • Gehri, N., Mata-Falcon, J., and Kaufmann, W., 2020. Automated crack detection and measurement based on digital image correlation. Construction and Building Materials, 256, 119383.
  • Guo, Y., et al., 2018. Evolution mechanism of microscopic pores in pavement concrete under multi-field coupling. Construction and Building Materials, 173, 381–393.
  • Hemalatha, T., and Ramesh, G., 2019. Mitigation of plastic shrinkage in fly ash concrete using basalt fibres. Canadian Journal of Civil Engineering, 46, 759–769.
  • Leplay, P., et al., 2011. Identification of damage and cracking behaviours based on energy dissipation mode analysis in a quasi-brittle material using digital image correlation. International Journal of Fracture, 171, 35–50.
  • Li, Z., et al., 2022. Attenuation behavior of pavement concrete under rolling load and hydrodynamic pressure coupling. Construction and Building Materials, 321, 126344. doi:10.1016/j.conbuildmat.2022.126344.
  • Liang, K., et al., 2020. Hydrodynamic pressure distribution in saturated void beneath cement concrete pavement slab. International Journal of Pavement Engineering, 23, 1413–1421.
  • Liang, N., et al., 2021. Study on the fracture toughness of polypropylene-basalt fiber-reinforced concrete. International Journal of Concrete Structures and Materials, 15, 1–23.
  • Liu, L., et al., 2017. Experimental study on diffusion behavior of chlorine ion in concrete subjected to fatigue loading. Journal of Experimental Mechanics, 32, 517–524.
  • Liu, F., et al., 2020. External sulfate attack on concrete under combined effects of flexural fatigue loading and drying-wetting cycles. Construction and Building Materials, 249, 118224. doi:10.1016/j.conbuildmat.2020.118224.
  • Lyu, Z., Shen, A., and Meng, W., 2021. Properties, mechanism, and optimization of superabsorbent polymers and basalt fibers modified cementitious composite. Construction and Building Materials, 276, 122212. doi:10.1016/j.conbuildmat.2020.122212.
  • Ma, Y., et al., 2019. Experimental study and numerical simulation on fracture properties of fiber reinforced concrete. Journal of Highway and Transportation Research and Development, 36, 37–46.
  • Niu, D., et al., 2020. Influence of contact parameters of coarse aggregate on damage evolution of asphalt mixture. China Journal of Highway and Transport, 33, 201–209.
  • Punurai, W., et al., 2018. Mechanical properties, microstructure and drying shrinkage of hybrid fly ash-basalt fiber geopolymer paste. Construction and Building Materials, 186, 62–70.
  • Ralph, C., et al., 2019. Relationships among the chemical, mechanical and geometrical properties of basalt fibers. Textile Research Journal, 89, 3056–3066.
  • Ren, Y., et al., 2015. Chloride ion diffusion of structural concrete under the coupled effect of bending fatigue load and chloride. Materials Research Innovations, 19, S181–S1S4.
  • Sahmaran, M., and Yaman, IO., 2005. Hybrid fiber reinforced self-compacting concrete with a high-volume coarse fly ash. Construction and Building Materials, 21, 150–156.
  • Seisuke, O., et al., 2019. Application of 3D-DIC system in rock mechanic test. Rock and Soil Mechanics, 40, 3263–3273.
  • Shen, A., et al., 2018. Numerical simulation analysis of instantaneous dynamic water pressure on road surface based on COMSOL multiphysics. Journal of South China University of Technology Natural Science Edition, 46, 92–101.
  • Shen, W., Yang, F., and Zhao, Y.-P., 2020. Unstable crack growth in hydraulic fracturing: The combined effects of pressure and shear stress for a power-law fluid. Engineering Fracture Mechanics, 225, 106245.
  • Shi, J., et al., 2019. Deformation behavior of concrete under uniaxial compression after high temperature by DIC technology. Journal of Building Materials, 22, 584–591.
  • Smarzewski, P., 2020. Flexural toughness evaluation of basalt fibre reinforced HPC beams with and without initial notch. Composite Structures, 235, 111769.
  • Stephen, S.J., and Gettu, R., 2020. Fatigue fracture of fibre reinforced concrete in flexure. Materials and Structures, 53. doi:10.1617/s11527-020-01488-7.
  • Stroeven, P., 2000. A stereological approach to roughness of fracture surfaces and tortuosity of transport paths in concrete. Cement & Concrete Composites, 22, 331–341.
  • Sun, X.J., et al., 2019. Fracture performance and numerical simulation of basalt fiber concrete using three-point bending test on notched beam. Construction and Building Materials, 225, 788–800.
  • Thiele, M., and Pirskawetz, S., 2022. Analysis of damage evolution in concrete under fatigue loading by acoustic emission and ultrasonic testing. Materials, 15, 341.
  • Varveri, A., Avgerinopoulos, S., and Scarpas, A., 2016. Experimental evaluation of long- and short-term moisture damage characteristics of asphalt mixtures. Road Materials and Pavement Design, 17, 168–186.
  • Vrijdaghs, R., di Prisco, M., and Vandewalle, L., 2020. Creep of polymeric fiber reinforced concrete: A numerical model with discrete fiber treatment. Computers & Structures, 233, 106233.
  • Wang, P., et al., 2020. Meso-damage evolution analysis of magnesium oxychloride cement concrete based on X-CT and grey-level co-occurrence matrix. Construction and Building Materials, 255, 119373.
  • Wang, A., Cao, S., and Yilmaz, E., 2022. Effect of height to diameter ratio on dynamic characteristics of cemented tailings backfills with fiber reinforcement through impact loading. Construction and Building Materials, 322.
  • Xiaoyong, W., 2019. Experimental study on mechanical properties of concrete under the interaction of load and carbonization. Huhehot: Inner Mongolia University of Technology.
  • Xing, H.Z., Zhang, Q.B., and Zhao, J., 2018. Stress thresholds of crack development and Poisson’s ratio of rock material at high strain rate. Rock Mechanics and Rock Engineering, 51, 945–951.
  • Xinzhuang, C., et al., 2014. Laboratory simulation tests of effect of mechanical damage on moisture damage evolution in hot-mix asphalt pavement. International Journal of Pavement Engineering, 16 (8), 699–709.
  • Yan, X., Zhang, R., and Guo, L., 2022. Investigation of mixed-mode fracture of UHPC using a hybrid digital image correlation and peridynamics approach. Optics and Lasers in Engineering, 151, 106918. doi:10.1016/j.optlaseng.2021.106918.
  • Yang, Y., et al., 2019. Uniaxial compression mechanical property and fracture behavior of hybrid inorganic short mineral fibers reinforced cement-based material. Cement & Concrete Composites, 104, 103338.
  • Zhang, H., et al., 2022. Preparation and characterization of damage indication and self-healing microcapsules for surface micro-cracks in mortar coating. Journal of Applied Polymer Science, 139, e52198. doi:10.1002/app.52198.
  • Zhao, Y., et al., 2019. Fracture properties of basalt fiber reinforced concrete after freeze-thaw cycles. Journal of Building Materials, 22, 575–583.
  • Zhao, Y.-R., et al., 2018. Study on bending damage and failure of basalt fiber reinforced concrete under freeze-thaw cycles. Construction and Building Materials, 163, 460–470.
  • Zheng, Y., et al., 2019. Cracking resistance and mechanical properties of basalt fibers reinforced cement-stabilized macadam. Composites Part B-Engineering, 165, 312–334.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.