Preparation of micro-calcite powder using fine-bubble assisted carbonation as toothpaste material

Padjadjaran Journal of Dentistry Pub Date : 2023-03-31 DOI:10.24198/pjd.vol35no1.44519

R. Febrida, Dinda Jihan Nabillah Salma, Fauzia Azzahra, E. Karlina, N. S. Andiesta, Yanwar Faza

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Abstract

ABSTRACTIntroduction: Calcite (CaCO3) is typically used in commercial toothpaste with particle size ranges from 1-12 μm. In the latest study, calcite was synthesized by using Ca(OH)2 precursor from natural resources However, the resulting particle size does not match the size of the toothpaste filler. This study aims to prepare micro-calcite from Ca(OH)2 analytical grade precursor via fine-bubble assisted carbonation and analysis the effect of precursor concentration and pH on the particle size of the calcite Methods: The calcite powder was prepared from Ca(OH)2 analytical grade powder utilizing the fine-bubble carbonation process with the Ca(OH)2 concentration and initial pH variation. The study was started by making a Ca(OH)2 suspension with a concentration of 0.25, 0.5, 0.75, 1 and 1.25 M using 2.000 ml methanol as a solvent. 0.5 M NaH2PO4 solutions were utilized to adjust the initial pH of 0.5 M Ca(OH)2 suspension into 8, 9, and 10. The suspensions were aerated using CO2 fine-bubble for two hours to produce CaCO3 samples. All precipitated CaCO3 particles were characterized by PSA, Zeta-Potential, and FTIR measurements Results: The calcite phase was identified from the FTIR transmittance. Aragonite or vaterite phase was not observed in the samples. PSA result shows the size of CaCO3 particles from samples 0.25 M to 1.25 M are as follows 3.03, 3.23, 2.79, 3.70, 0.99 μm respectively. Meanwhile, the particle sizes of CaCO3 in samples with a pH of 8, 9 and 10 are 3.00, 2.03 and 2.50 μm respectively. The zeta potential shows the value ranges from -23.2 mV to -11.9 mV, indicating fair dispersion ability. Conclusion: The fine bubble assisted carbonation method in this study helps in producing calcite particle sizes that could be used as alternative fillers for toothpaste.Keywords: calcite, fine-bubble, carbonation, particle size, toothpaste

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用细泡辅助碳酸化法制备微方解石粉末牙膏

摘要简介:碳酸钙(CaCO3)通常用于商品牙膏，粒径范围为1 ~ 12 μm。在最新的研究中，利用天然资源中的Ca(OH)2前驱体合成了方解石，但得到的颗粒尺寸与牙膏填料的尺寸不匹配。本研究以分析级Ca(OH)2前驱体为原料，采用细泡辅助碳酸化法制备微方解石，并分析了前驱体浓度和pH对方解石粒径的影响。方法:以分析级Ca(OH)2粉末为原料，采用细泡碳酸化工艺，随Ca(OH)2浓度和初始pH的变化制备方解石粉体。本研究首先以2.000 ml甲醇为溶剂制备浓度分别为0.25、0.5、0.75、1和1.25 M的Ca(OH)2悬浮液。利用0.5 M NaH2PO4溶液将0.5 M Ca(OH)2悬浮液的初始pH调整为8、9和10。将悬浮液用CO2细泡曝气2小时，制得CaCO3样品。通过PSA、Zeta-Potential和FTIR对沉淀的CaCO3颗粒进行了表征。样品中未见文石或水蛭石相。PSA结果表明，0.25 M ~ 1.25 M试样的CaCO3粒径分别为3.03、3.23、2.79、3.70、0.99 μm。同时，在pH为8、9和10的样品中，CaCO3的粒径分别为3.00、2.03和2.50 μm。zeta电位的取值范围为-23.2 mV ~ -11.9 mV，色散能力较好。结论:本研究采用细气泡辅助碳酸化方法制备的方解石粒径可作为牙膏的替代填料。关键词:方解石，细泡，碳酸化，粒径，牙膏

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来源期刊

Padjadjaran Journal of Dentistry

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审稿时长

3 weeks