Frontiers in Materials (Aug 2021)

Development of Engineered Cementitious Composites Using Sea Sand and Metakaolin

  • Qiyao Yao,
  • Zuo Li,
  • Chenyu Lu,
  • Linxin Peng,
  • Linxin Peng,
  • Linxin Peng,
  • Yuejing Luo,
  • Yuejing Luo,
  • Xiaodan Teng,
  • Xiaodan Teng,
  • Xiaodan Teng

DOI
https://doi.org/10.3389/fmats.2021.711872
Journal volume & issue
Vol. 8

Abstract

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The present study investigates the possibility of using sea sand, instead of silica sand, in producing engineered cementitious composites (ECCs) and the optimal mix proportion, mechanical behavior, and erosive effect of chloride ions on sea sand ECCs (SECCs). Nine groups of SECC specimens were prepared based on the orthogonal test design, and these cured for the uniaxial tensile, uniaxial compression, and fracture energy tests. The roundness and sphericity of sea sand and silica sand were quantified by digital microscopy. The microstructure and composition of SECCs were characterized by scanning electron microscopy (SEM) and X-ray diffraction (XRD). The mix proportions of SECCs with a tensile strain capacity more than 2% and a compressive strength more than 60 MPa were obtained. The factor analysis of these serial tests revealed that the contents of both fly ash and sea sand have a significant effect on the compressive strength and tensile strain capacity of SECCs. The fracture energy test revealed that the matrix fracture toughness of SECCs significantly increases with the increase in sea sand content. The XRD analysis revealed that the addition of metakaolin can enhance the ability of SECCs to bind chloride ions, and with the increase in chloride ion content, the ability of SECCs to bind chloride ions would improve. The results of the present study provide further evidence of the feasibility of using sea sand in the production of ECCs, in order to meet the requirements of diverse concrete components on ductility and durability.

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