Shiyu Zhuang scite author profile

The filler effect is the most important physical mechanism of mineral admixtures in the early hydration of cement whose chemical properties greatly affect the precipitation of C-S-H. In this study, calcite, strontianite, magnesite, dolomite, quartz, whewellite and whitlockite were selected as the fillers. The morphology and reaction kinetics of synthetic C-S-H precipitated on the surfaces of different fillers were studied via electron microscopy observations and electrical conductivity and ion concentration measurements. The precipitation rate of C-S-H has a positive correlation with the affinity of Ca 2+ for adsorption on the fillers, which can be explained by the nucleation barrier of C-S-H. Extremely ordered honeycomb-like morphology of the C-S-H is found on calcite and strontianite surfaces, while less regular leaf-like or honeycomb-like C-S-H are found on whewellite and whitlockite. The ordered C-S-H pattern is related to the lattice cleavage of the ionic compound filler.In the case of quartz, C-S-H prefers growth along the tangential direction, which is quite different from the normal-direction growth on ionic compounds. The in-plane growth of C-S-H on quartz is believed to be induced by a layer of loosely physically-adsorbed Ca 2+ .

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Assimilating temperature and salinity profile observations using an anisotropic recursive filter in a coastal ocean model

Liu

Zhu

She

et al. 2009

Ocean Modelling

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Shiyu Zhuang

Inhibition mechanisms of steel slag on the early-age hydration of cement

The soundness of steel slag with different free CaO and MgO contents

Hydration properties and microstructure characteristics of alkali–activated steel slag

A new understanding of the effect of filler minerals on the precipitation of synthetic C–S–H

Assimilating temperature and salinity profile observations using an anisotropic recursive filter in a coastal ocean model

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