Journal ArticleDOI
Hydration properties and kinetic characteristics of blended cement containing lithium slag powder
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In this article, Li et al. analyzed the ionic dissolution properties of LS powder and the hydration properties and kinetic process of blended cement containing LS powder, and the results showed that the structure of the blended cement is more compact when 10% LS powder was mixed in the cementitious system.Abstract:
Lithium slag (LS) powder is a potential supplementary cementitious material due to its large content of active aluminosilicate minerals. To clarify the properties of LS powder as a supplementary cementitious material, the ionic dissolution properties of LS powder and the hydration properties and kinetic process of blended cement containing LS powder were studied in this paper. ICP was used to analyze the dissolution of Si 4+, Al3+ and Ca2+ ions in LS powder in the simulated cement alkali environment, and the mineral composition of the dissolved LS powder was analyzed by XRD . The results showed that SiO 2 and Al2O3 were the main active sources of LS powder and that an increase in the alkaline solution temperature promoted the dissolution of silicate in the LS powder and breaking of the Si–O and Al–O bonds. The hydration characteristics of blended cement were studied by isothermal calorimetry combined with the K-D model. The results showed that LS powder reduced the structural compactness of the hardened cement paste to varying degrees in the early stage of hydration, but in the later stage of hydration, the high content of S in the LS powder promoted the formation of rod-shaped ettringite in the hydration product . The proper amount (10%) of LS powder made the paste structure more compact. As determined by the hydration kinetic analysis, the hydration process of blended cement can be divided into crystal nucleation and growth (NG), phase boundary reaction (I) and diffusion (D) processes, and the rate of crystal nucleation is far greater than the rates of the phase boundary reaction and diffusion. According to the SEM results, the structure of blended cement is more compact when 10% LS powder was mixed in the cementitious system .read more
Citations
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Preparation and study of magnesium ammonium phosphate cement from waste lithium slag
TL;DR: In this article, the use of LS to prepare and study the physical and mechanical properties of magnesium ammonium phosphate cement (MAPC) was investigated, and the results showed that a replacement level of 10% was the optimum dosage and produced the best results as compared to other mixtures.
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Hydration superposition effect and mechanism of steel slag powder and granulated blast furnace slag powder
TL;DR: In this paper , the hydration superposition effect and mechanism of steel slag and granulated blast furnace slag were studied in terms of ion dissolution, hydration heat and microstructure and mechanical properties.
Journal ArticleDOI
Early-age hydration characteristics and kinetics model of blended cement containing waste clay brick and slag
Yasong Zhao,Jianming Gao,Gao Wei Chen,Shujun Li,Xu Luo,Zhen-Yu Xu,Zhao-qiang Guo,Hongjian Du +7 more
TL;DR: In this article , the early-age hydration mechanism of low carbon blended cement was studied by analyzing the hydration characteristics and kinetics parameters of blended cement with different admixture replacement rate, CBP to slag ratio and temperature.
Journal ArticleDOI
Early hydration properties and reaction kinetics of multi-composite cement pastes with supplementary cementitious materials (SCMs)
TL;DR: In this paper , the authors investigated the early hydration performance of binary, ternary and quaternary cement blends with three typical SCMs and calculated the hydration mechanism and kinetics parameters quantitatively.
Journal ArticleDOI
Effects of TEA on rheological property and hydration performance of lithium slag-cement composite binder
TL;DR: In this paper , the effects of triethanolamine (TEA) on rheological property and hydration performance of lithium slag (LS) composite binder were analyzed, which showed that the influence of TEA on hydration of LS composite was highly correlated with its content, and the promoted dissolution of Si4 and Al3+ ions from LS led to decreased Ca/Si and Ca/(Si + Al) atom ratios as well as increasd Al/Si atom ratio in hydration products.
References
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Supplementary cementitious materials
TL;DR: The use of silica-rich SCMs influences the amount and kind of hydrates formed and thus the volume, the porosity and finally the durability of these materials.
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Structural studies of silicates by solid-state high-resolution silicon-29 NMR
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Structure of Calcium Silicate Hydrate (C‐S‐H): Near‐, Mid‐, and Far‐Infrared Spectroscopy
TL;DR: In this paper, the mid-, near-, and far-infrared (IR) spectra of synthetic, single-phase calcium silicate hydrates (C-S-H) with Ca/Si ratios (C/S) of 0.41-1.2 were analyzed.
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Advances in understanding hydration of Portland cement
TL;DR: In this paper, the growth of C-S-H is the principal factor controlling the main heat evolution peak and after several days space becomes the major factor controlling hydration, but deceleration cannot be attributed to diffusion control.
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Early hydration and setting of Portland cement monitored by IR, SEM and Vicat techniques
TL;DR: In this article, the authors employed Diffuse Reflectance Infrared DR-FTIR spectroscopy to monitor chemical transformations in pastes of Portland limestone cement and concluded that the setting is caused by interparticle coalescence of C-S-H.