在硫酸盐掺入和振动的辅助下,通过晶格改性形成 CaCO3 的新形貌

W. Mangestiyono, J. Jamari, A. P. Bayuseno, S. Muryanto
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引用次数: 0

摘要

CaCO3 长期以来一直被用作填料,以提高材料的许多性能。填料通常由价格低廉的材料组成,这些材料可替代部分价格较高的材料,从而降低最终产品的成本。可用作填料的 CaCO3 形态取决于填料的功能,如造纸、涂料、橡胶或复合材料的填料。复合材料的填料需要增加颗粒填料与基体之间的界面相互作用。因此,形状较宽的颗粒将是此类填料功能的最佳选择。在这项研究中,为了增加界面相互作用,我们通过硫酸盐的加入和振动来改变 CaCO3 的晶格,从而改变了 CaCO3 的形态。扫描电镜分析表明,该研究成功地产生了枝状多晶体的新型形态。傅立叶变换红外光谱分析也证明了晶格的改变。枝状多晶体的形态应该是为了增加作为填料的 CaCO3 与基体之间的界面相互作用。随着研究规模扩大到商业规模,这些方法也将得到实施。
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Development of CaCO3 novel morphology through crystal lattice modification assisted by sulfate incorporation and vibration
CaCO3 has long been used as a filler to increase many properties of the material. The filler commonly consists of inexpensive materials that replace some volume of the more expensive materials, which can reduce the cost of the final product. CaCO3 morphology that can be used as filler depends on the filler's function, such as filler for paper, paint, rubber, or composite. A filler for composite materials is needed to increase interfacing interactions between the particulate fillers and the matrix. So, the particulate in a broader shape will be the best choice to function for such filler. In this research, in an attempt to increase the interfacing interaction, CaCO3 morphology was modified in such a way through crystal lattice modification assisted by sulfate incorporation and vibration. SEM analysis was implemented, and showed that the research successfully produced novel morphology in branchy-like polymorphs. FTIR analysis also proved that the crystal lattice has been modified. The morphology in branchy-like polymorph is supposed to increase interfacing interaction between CaCO3 as the filler and the matrix. The methods are also supposed to be implemented as the research is scaled up to commercial scale.
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来源期刊
Communications in Science and Technology
Communications in Science and Technology Engineering-Engineering (all)
CiteScore
3.20
自引率
0.00%
发文量
13
审稿时长
24 weeks
期刊最新文献
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