Congqi Luan scite author profile

Traditional cement-based materials are brittle materials with poor toughness and easy cracking characteristics. The formation of cracks due to drying shrinkage and external load accelerated the destruction of building structures. In order to improve brittleness of concrete, engineered cementitious composites (ECC), a fiber reinforced cement-based composite with high ductility and features of multiple cracking, was proposed and had attracted fully attention. Nickel-Titanium (Ni-Ti) alloy fiber had better crack recovery capabilities compared to steel fiber. Therein, Ni-Ti alloy fiber, activated at low temperature, was applied to endow ECC with the function of crack recovery in a short period. Crack recovery performances were investigated by measuring the crack width, water permeability and acoustic emission analysis. Results showed that the flexural strength, compressive strength of ECC was enhanced by adding Ni-Ti alloy fiber and specimens displayed features of multiple cracking. Further, the crack width was reduced after 45℃ heat treatment when incorporated Ni-Ti alloy fibers. Moreover, shape memory effect of Ni-Ti alloy fibers that activated and recovered at a low heat treatment temperature of 45 ℃ was verified.

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Changes in fractal dimension and durability of ultra-high performance concrete (UHPC) with silica fume content

Luan

Wang

Gao

et al. 2022

Archiv.Civ.Mech.Eng

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Mechanisms of carbon black in multifunctional cement matrix: Hydration and microstructure perspectives

Zhang

Luan²,

Yu³

et al. 2022

Construction and Building Materials

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Congqi Luan

Effects of nano-SiO2, nano-CaCO3 and nano-TiO2 on properties and microstructure of the high content calcium silicate phase cement (HCSC)

Optimizing the content of nano-SiO2, nano-TiO2 and nano-CaCO3 in Portland cement paste by response surface methodology

Investigation on Crack Recovery Behavior of Engineered Cementitious Composite (ECC) Incorporated Memory Alloy Fiber at Low Temperature

Changes in fractal dimension and durability of ultra-high performance concrete (UHPC) with silica fume content

Mechanisms of carbon black in multifunctional cement matrix: Hydration and microstructure perspectives

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