Study on the mechanism of controlling the morphology of basic magnesium carbonate prepared under different hydration conditions

IF 1.5 4区 工程技术 Q2 Earth and Planetary Sciences Physicochemical Problems of Mineral Processing Pub Date : 2024-06-09 DOI:10.37190/ppmp/189757
Yang Yang, Limei Bai, Yuxin Ma, YuLian Wang
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Abstract

Basic magnesium carbonate is gaining prominence in flame retardant materials due to its excellent flame-retardant properties and clean decomposition products. This study investigates a hydration-carbonation method to address challenges related to the preparation, morphology control, and stability of magnesium basic carbonate. The impact of hydration conditions on the morphology of the carbonate was analyzed using scanning electron microscopy (SEM) and X-ray diffraction (XRD). The results indicate that spherical magnesium basic carbonate with regular morphology and uniform particle size can be achieved at a hydration temperature of 50°C for 1.5 hours. However, extending the hydration time and increasing the temperature resulted in irregular morphologies. Molecular dynamics simulations using the CASTEP and Forcite modules of Materials Studio were employed to understand the influence of hydration-carbonation conditions on the carbonate's morphology. The simulations revealed that the (1 1 1) and (2 0 0) crystal faces of MgO, with higher surface energies, promote the formation of precursor magnesium hydroxide nuclei, leading to heterogeneous magnesium alkali carbonate at elevated temperatures. Prolonged hydration time resulted in fragmented carbonate structures. To control the morphology of magnesium alkali carbonate, it is essential to optimize hydration temperature and duration. The simulation results corroborate experimental findings, providing deeper insights into the liquid-gas-solid adsorption relationships during the carbonation process. This study offers valuable guidelines for the controlled synthesis of magnesium basic carbonate, enhancing its applicability in flame retardant materials.
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不同水合条件下制备碱式碳酸镁的形态控制机制研究
碱式碳酸镁因其优异的阻燃性能和清洁的分解产物,在阻燃材料中的应用日益突出。本研究探讨了一种水合碳化方法,以解决与碱式碳酸镁的制备、形态控制和稳定性相关的难题。使用扫描电子显微镜(SEM)和 X 射线衍射(XRD)分析了水合条件对碳酸盐形态的影响。结果表明,在水化温度为 50 摄氏度、时间为 1.5 小时的条件下,可以制备出形态规则、粒度均匀的球形碱式碳酸镁。然而,延长水合时间和提高温度会导致形态不规则。为了了解水合碳化条件对碳酸盐形态的影响,我们使用 Materials Studio 的 CASTEP 和 Forcite 模块进行了分子动力学模拟。模拟结果表明,氧化镁的(1 1 1)和(2 0 0)晶面具有较高的表面能,可促进前驱体氢氧化镁核的形成,从而在高温下形成异质碱式碳酸镁。延长水合时间会导致碳酸盐结构破碎。要控制碱式碳酸镁的形态,必须优化水合温度和时间。模拟结果证实了实验结果,使人们对碳化过程中的液-气-固吸附关系有了更深入的了解。这项研究为碱式碳酸镁的可控合成提供了宝贵的指导,提高了其在阻燃材料中的应用。
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来源期刊
Physicochemical Problems of Mineral Processing
Physicochemical Problems of Mineral Processing 工程技术-矿业与矿物加工
CiteScore
2.20
自引率
6.70%
发文量
99
审稿时长
3.3 months
期刊介绍: Physicochemical Problems of Mineral Processing is an international, open access journal which covers theoretical approaches and their practical applications in all aspects of mineral processing and extractive metallurgy. Criteria for publication in the Physicochemical Problems of Mineral Processing journal are novelty, quality and current interest. Manuscripts which only make routine use of minor extensions to well established methodologies are not appropriate for the journal. Topics of interest Analytical techniques and applied mineralogy Computer applications Comminution, classification and sorting Froth flotation Solid-liquid separation Gravity concentration Magnetic and electric separation Hydro and biohydrometallurgy Extractive metallurgy Recycling and mineral wastes Environmental aspects of mineral processing and other mineral processing related subjects.
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