热处理对多孔陶瓷基天然粘土和壳聚糖生物聚合物前驱体性能的影响

IF 1 Q4 CHEMISTRY, MULTIDISCIPLINARY

Indonesian Journal of Chemistry Pub Date : 2023-05-22 DOI:10.22146/ijc.80375

S. Putri, Ahyar Ahmad, I. Raya, R. Tjahjanto, R. Irfandi, H. Karim, S. Desa, A. Rahman

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引用次数: 0

摘要

以天然粘土(NC)和壳聚糖(CS)生物聚合物为原料，采用凝胶浇铸法制备多孔陶瓷，研究热处理对其结晶度和孔隙特性的影响。CS是一种环保型成孔剂。应用温度处理基于热分析(TGA/DTA)结果，烧结温度为900 ~ 1100℃。结果表明，在900 ~ 1000℃的烧结温度下，陶瓷的结晶度下降(从76.06降至74.06%)，晶粒尺寸减小(从35.71 nm降至34.47 nm)，晶格应变增大(由衍射峰半最大值全宽度(β)计算)。烧结温度为1000℃时，陶瓷的孔隙率为37.82±0.19，孔隙率最高，但微观结构呈非均匀分布。所有温度处理的结果孔径几乎为中孔(19.1 Å)。在此基础上，强调了烧结温度可以调节多孔陶瓷的孔隙率和微观结构。

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The Effect of Thermal Treatment on the Characteristics of Porous Ceramic-Based Natural Clay and Chitosan Biopolymer Precursors

This study was conducted to determine the role of thermal treatment on the crystallinity and pore characteristics of porous ceramic, which was prepared from natural clay (NC) and chitosan (CS) biopolymer using the gel casting method. CS was used as an environmentally friendly pore-forming agent. The applied temperature treatment was based on thermal analysis (TGA/DTA) results and followed a sintering temperature of 900 to 1100 °C. The results showed that at sintering temperatures from 900 to 1000 °C, the crystallinities of the ceramic decrease (from 76.06 to 74.06%) and the crystallite size decreases (from 35.71 to 34.47 nm) while the lattice strain increases (calculated from the Full Width at Half Maximum (β) of the diffraction peak). The highest porosity of ceramic occurred at a sintering temperature of 1000 °C of 37.82 ± 0.19, but the formation of heterogeneous microstructure was observed. The resulting pore size for all temperature treatments was almost mesoporous (19.1 Å). Based on the results obtained, it is emphasized that the sintering temperature can be used to adjust the porosity and microstructure of porous ceramics.

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来源期刊

Indonesian Journal of Chemistry CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

2.30

自引率

11.10%

发文量

106

审稿时长

15 weeks

期刊介绍： Indonesian Journal of Chemistry is a peer-reviewed, open access journal that publishes original research articles, review articles, as well as short communication in all areas of chemistry, including educational chemistry, applied chemistry, and chemical engineering.