Abstract

The effect of silica fume on the rheological properties of a cement–silica fume–high range water reducer–water mixture with ultra-low water binder ratio (CSHWM) was studied. The results indicate that the W/B ratio and silica fume content have different effects on the rheological parameters, including the yield stress, plastic viscosity, and hysteresis loop area. The shear-thickening influence of CSHWM decreased with the increased silica fume content. When the silica fume content increased from 0% to 35%, the mixture with W/B ratio of 0.19 and 0.23 changed from a dilatant fluid to a Newtonian fluid, and then to a pseudoplastic fluid. When the silica fume content was less than 15%, the yield stress was close to 0. With the increase of silica fume content, the yield stress increased rapidly. The plastic viscosity and hysteresis loop area decreased slightly with the addition of a small amount of silica fume, but increased significantly with the continuous increase of silica fume. Compared with the Bingham and modified Bingham models, the Herschel–Buckley model is more applicable for this CSHWM.

Highlights

  • Introduction of CementRatio.RheologicalMaterials Properties 2022, 15, x.With the use of silica fume and high-range water reducer (HRWR), fresh cem

  • Rheological Curves of CSHWMs with Different Silica Fume Contents reflected by the rheological curves

  • When the silica fume content was below 10%, the apparent viscosity of the CSHWM increased with an increasing shear rate, with characteristics of a dilatant-flow fluid with shear thickening (Figures 4a and 5a)

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Summary

Introduction

The silica fume and HRWR strongly affect the rheology of fresh cementitious composites and are vital for the preparation of UHPC [1]. Researchers have investigated the effect of silica fume on the rheology of cementitious mixtures [3,4,5,6]. The rheological properties of cement composites with ultra-high silica fume content have not been fully studied. After eliminating the unstable aggregates, the effect of the W/B ratio and silica fume on the rheology of the stable cement paste was investigated. It provides theoretical guidance for the selection of silica fume content in UHPC mix design

Raw Materials
Mixture
Rheological
Results and and Discussion
Rheological Model of CSHWMs with Different Silica Fume Contents
Yield Stress of CSHWMs with Different Silica Fume Contents
Rate Index of CSHWMs with Different Silica Fume Contents
Hysteresis Loop Area of CSHWMs with Different Silica Fume Contents
Rheological Curves and Rheological Models of CSHWMs with Different
Conclusions

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