Fangyu Han scite author profile

A carefully designed formulation of dry cement powder for concrete canvas, which is expected to have both high mechanical strengths and short setting times, is obtained by partially replacing calcium sulfoaluminate cement (CSA) with anhydrite at four levels (0%, 10%, 20% and 30% by mass of CSA cement). The influence of anhydrite fineness on the mechanical properties of concrete canvas and its mechanical anisotropy are both investigated. X-ray diffraction analysis and isothermal calorimetry are used to investigate the underlying mechanism. Results reveal that increasing anhydrite content or fineness improve the mechanical strengths of concrete canvas and shortened its setting times. However, a slight decrease of mechanical strength occurs at the later age when the replacement level was 30 wt%. A large amount of unhydrated particles is found in hardened specimens. The concrete canvas shows higher mechanical strengths in the warp direction than in the weft direction, and it exhibits the lowest compressive strength in the through-the-thickness direction.

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Application design of concrete canvas (CC) in soil reinforced structure

Chen

Liu

et al. 2016

Geotextiles and Geomembranes

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Effect of Steel Fiber on Flexural Toughness and Fracture Mechanics Behavior of Ultrahigh-Performance Concrete with Coarse Aggregate

Zhang

Liu

et al. 2018

J. Mater. Civ. Eng.

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Fangyu Han

Combined effect of coarse aggregate and fiber on tensile behavior of ultra-high performance concrete

Influences of geometric patterns of 3D spacer fabric on tensile behavior of concrete canvas

Improvement of mechanical properties of concrete canvas by anhydrite-modified calcium sulfoaluminate cement

Application design of concrete canvas (CC) in soil reinforced structure

Effect of Steel Fiber on Flexural Toughness and Fracture Mechanics Behavior of Ultrahigh-Performance Concrete with Coarse Aggregate

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