Abstract
By applying an external uniform magnetic field to a fresh cement mixture during casting, an aligned steel fibre reinforced cementitious composites (ASFRC) was prepared. This investigation compares the performance of ASFRC with its counterpart—ordinary steel fibre reinforced cementitious composite (SFRC) containing randomly distributed steel fibres. First, the orientation of the steel fibres in ASFRC and SFRC specimens was examined using X-ray computed tomography analysis; this confirmed that the steel fibres were effectively aligned in the ASFRC. Then, uniaxial tensile tests were performed to allow a comparison of the uniaxial tensile stress–strain curves of the ASFRC and SFRC; and to determine the advantages, if any of ASFRC over SFRC in terms of uniaxial tensile strength (fUtu), ultimate strain (εUtu) and energy dissipation (Gf-A). The uniaxial tensile test results were also used to show that, if the tensile strength of ASFRC is equal to that of SFRC (actually slightly exceeding) using the aligned steel fibre technology, the dosage of steel fibres can be reduced at least 40%. It was also found that the alignment of the steel fibres affects the strain-hardening and multiple cracking behavior of the composites during uniaxial tension testing. Finally, the multiple cracking behavior of the composites was analyzed using a digital image correlation method. These results show that ASFRC exhibits a multiple cracking pattern at a much lower fibre content compared to SFRC.
Highlights
By incorporating steel fibres into the cement mortar matrix, the tensile strength, cracking resistance, impact and fatigue resistance of cementitious composites can be effectively enhanced [1,2,3,4,5,6,7,8]
The multiple cracking behavior of the composites was analyzed using a digital image correlation method. These results show that aligned steel fibre reinforced cementitious composites (ASFRC) exhibits a multiple cracking pattern at a much lower fibre content compared to steel fibre reinforced cementitious composite (SFRC)
The effects of fibre orientation on the uniaxial tensile stress–strain curves, tensile parameters and multiple cracking behavior were quantitatively analyzed for the experimental test results of SFRC and ASFRC
Summary
By incorporating steel fibres into the cement mortar matrix, the tensile strength, cracking resistance, impact and fatigue resistance of cementitious composites can be effectively enhanced [1,2,3,4,5,6,7,8]. Steel fibres are usually added into concrete to improve its ductile behavior. Page 2 of 12 in service the direction of the principal stress is constant, the orientation of most steel fibres is not consistent with the direction of the tensile stress during the loading process, and only a part of the fibres act effectively as reinforcement. If the orientation of steel fibres can be aligned with the direction of the principal tensile stress of the structural members, the tensile behavior and ductility of the SFRC structural members will be improved significantly
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