Sintesis dan Karakterisasi Fe₂TiO₅ dari Besi Oksida dan Titanium Dioksida dengan Metode Planetary Ball-Mill

KOVALEN: Jurnal Riset Kimia Pub Date : 2022-12-29 DOI:10.22487/kovalen.2022.v8.i3.15644
L. Kadir, M. Azis, S. Musiam, V. A. Fabiani, Karnelasatri, D. Permana, T. Azis, Syahrir
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Abstract

The method of solid hydrogen storage through integration in metal hydride compounds is a new, promising method. This research has succeeded in synthesizing and characterizing the metal hydride alloy Fe-Ti system through a planetary ball-mill process. Based on the XRF analysis, it was found that the composition of Fe oxide content reached 56.22% while Ti oxide reached 43.78%. The FTIR study showed absorption at wavenumbers of 900 cm-1 and 500 cm-1. Both are typical absorptions for Ti-O and Fe-O groups, suggesting that the synthesized sample was successful. It can be seen from the XRD data that some of the diffractogram peaks of the resulting Fe-Ti compound match the peaks of the Fe2TiO5 and TiO2 compounds obtained from the Powder Diffraction File (PDF) database number 00-003-0374. After the refinement was performed, information was obtained that the synthesis of Fe-Ti alloy material using the planetary ball mill technique produced Fe2TiO5.
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和Fe₂TiO₅描述合成氧化铁和二氧化钛的行星Ball-Mill方法
金属氢化物集成固体储氢是一种很有前途的新方法。本研究通过行星球磨机工艺成功地合成了金属氢化物合金Fe-Ti体系并对其进行了表征。XRF分析发现,铁氧化物含量达到56.22%,Ti氧化物含量达到43.78%。FTIR研究显示吸收波数为900 cm-1和500 cm-1。两者都是典型的Ti-O和Fe-O基团的吸收,表明合成样品是成功的。从XRD数据可以看出,所得Fe-Ti化合物的部分衍射峰与从粉末衍射文件(PDF)数据库编号00-003-0374中获得的Fe2TiO5和TiO2化合物的峰相匹配。细化后得到的信息是,采用行星球磨机技术合成Fe-Ti合金材料得到的是Fe2TiO5。
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KOVALEN: Jurnal Riset Kimia
KOVALEN: Jurnal Riset Kimia
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