Phosphorus Substitution Preference in Ye’elimite: Experiments and Density Functional Theory Simulations

Zhao, Jiuye; Huang, Jiazhi; Yu, Chunyang; Cui, Chunyi; Chang, Jun

doi:10.3390/ma14195874

Cited by 7 publications

(1 citation statement)

References 56 publications

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“…The results showed that phosphoric acid and phosphate adversely affected CAS's hydration and mechanical properties, with phosphoric acid having the most significant effect [26]. Zhao et al used density functional theory (DFT) simulations to demonstrate that P atoms were more likely to replace S atoms to form phosphorusdoped ye'elimite when PG was used to produce CAS clinker [27]. Previous studies have focused on the hydration of PG-prepared CAS clinker's hydration characteristics, properties, and doping mechanism [28][29][30].…”

Section: Introductionmentioning

confidence: 99%

Investigation of Process Parameters of Phosphogypsum for Preparing Calcium Sulfoaluminate Cement

Zhang

Chang

et al. 2022

Buildings

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Preparing calcium sulfoaluminate cement (CAS) from solid waste phosphogypsum (PG) instead of natural gypsum is an effective way to utilize solid waste. In this paper, CAS clinker was successfully prepared from PG and the mineral content of calcium sulfoaluminate () in the sample was above 65%. The effects of raw material ratio, calcination temperature, and time on clinker composition were investigated. The mechanical properties of different samples were tested. The optimum ratio for preparing CAS using PG was 42.23% limestone, 17.43% PG, and 40.34% bauxite. The optimal calcination conditions are a high temperature of 1250 °C for 45 min. The 3-day compressive strengths of the laboratory-prepared CAS were all above 50 MPa. It was found that as the calcination temperature increased, the amount of produced gradually increased. Temperatures above 1300 °C resulted in the decomposition of . The calcination time did not significantly affect the mineral composition of the clinker or the strength of the cement. was observed to be rounded and hexagonal platelets with crystal sizes of 1 to 2 μm, a relatively small size that is favorable to the hydration of , as observed by SEM images. In addition, the high calcination temperature affected the particle morphology of , changing it from a well-defined polygonal structure to a molten state. The test results provide helpful information for improving PG utilization and applying PG in CAS production.

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Section: Introductionmentioning

confidence: 99%

Investigation of Process Parameters of Phosphogypsum for Preparing Calcium Sulfoaluminate Cement

Zhang

Chang

et al. 2022

Buildings

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Facet Engineering Boosts Interfacial Compatibility of Inorganic‐Polymer Composites

Yu,

Ye,

Zhang

et al. 2024

Advanced Science

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The interfacial compatibility between inorganic particles and polymer is crucial for ensuring high performance of composites. Current efforts to improve interfacial compatibility preferentially rely on organic modification of inorganic particles, leading to their complex process, high costs, and short lifespans due to aging and decomposition of organic modifiers. However, the fabrication of inorganic particles free from organic modification that is highly compatible in polymer still remains a great challenge. Herein, a novel facet‐engineered inorganic particle that exhibit high compatibility with widely used polymer interface without organic modification is reported. Theoretical calculations and experimental results show that (020) and (102) facets of inorganic particles modulate local coordination environment of Ca atoms, which in turn regulate d‐orbital electron density of Ca atoms and electron transfer paths at interfaces between polymer and inorganic particles. This difference alters the molecular diffusion, orientation of molecular chains on surface of inorganic particles, further modulating interfacial compatibility of composites. Surprisingly, the facet‐engineered inorganic particles show exceptional mechanical properties, especially for tensile strain at break, which increases by 395%, far superior to state‐of‐the‐art composites counterparts. Thus, the method can offer a more benign approach to the general production of high‐performance and low‐cost polymer‐inorganic composites for diverse potential applications.

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The Influence of Gypsum Content on the Hydration and Properties of Belite-Ye’elimite-Ferrite (BYF) Clinker

Sabbah

Zhutovsky

2023

RILEM Bookseries

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Phosphorus Substitution Preference in Ye’elimite: Experiments and Density Functional Theory Simulations

Cited by 7 publications

References 56 publications

Investigation of Process Parameters of Phosphogypsum for Preparing Calcium Sulfoaluminate Cement

Investigation of Process Parameters of Phosphogypsum for Preparing Calcium Sulfoaluminate Cement

Facet Engineering Boosts Interfacial Compatibility of Inorganic‐Polymer Composites

The Influence of Gypsum Content on the Hydration and Properties of Belite-Ye’elimite-Ferrite (BYF) Clinker

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