Fiber distribution and its influencing mechanism on properties in sprayed ultra-high performance concrete

Fiber distribution and its influencing mechanism on properties in sprayed ultra-high performance concrete

A fiber-reinforced sprayed ultra-high performance concrete (SUHPC) with high consistency and suitable sprayed thickness was developed in this paper. Fiber distribution of SUHPC after pumping and spraying is the intrinsic mechanism for the changes in strength and toughness, especially with its high c...

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Bibliographic Details
Main Authors: Jinyang Cui, Shuguang Li, Wenwei Li, Zhen He, Huamei Yang, Kailai Zhang
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Case Studies in Construction Materials
Subjects:
Sprayed
UHPC
Rheology
Fiber distribution
Toughness
Online Access:http://www.sciencedirect.com/science/article/pii/S2214509525001597
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Summary:A fiber-reinforced sprayed ultra-high performance concrete (SUHPC) with high consistency and suitable sprayed thickness was developed in this paper. Fiber distribution of SUHPC after pumping and spraying is the intrinsic mechanism for the changes in strength and toughness, especially with its high consistency, high fiber content, and no coarse aggregate is completely different from conventional shotcrete. Thereby a series of studies were performed including rheological behaviours, mechanical properties, and their influencing mechanisms. Results showed that the field sprayed thickness of SUHPC achieved about 30 mm when it had a flow resistance of 164.7 % of casted UHPC, and its deformation recovery was very weak due to its strong thixotropy. More bubbles were entrapped during spraying, the partially unbroken bubbles were easily trapped in the fresh matrix and transformed into irregular coarse pores (≥25 μm) and a 55.2 % increase in porosity, which will partially weaken the strength and toughness of SUHPC. Additionally, the fiber orientation in SUHPC was more parallel to the sprayed surface after spraying, mainly concentrated in 75 ° to 85 °, and the fiber lap rate was also improved by 28.2 % because of its approximate two-dimensional distribution. As the fiber content decreased, the consistency of fresh concrete, porosity, and strength all showed a reduction, and the fibers became more parallel to the sprayed surface. Overall, the short straight steel fiber is preferred by SUHPC and its content should not be less than 78 kg/m3.
ISSN:2214-5095

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