Author:
Xiao Yanjun,Sun Tong,Zhao Yong-Hong
Abstract
It is always a goal of scientists to develop new techniques to identify the composition of mantle materials and understand geodynamic processes accurately. Ferropericlase (Mg,Fe)O is a prominent mineral in the lower mantel. It is a common practice in the research community to prepare ferropericlase using a solid-phase synthesis method or high-pressure experiment synthesis method. This conventional method contains a number of ambiguities a great deal of time is needed. In this paper, we have addressed the drawbacks of the conventional technique using a liquid-phase synthesis method to prepare ferropericlase. During the experiment, oxalic acid was added to a mixed solution of ferrous sulfate and magnesium chloride and mixed according to the molar ratio. The formed magnesium iron oxalate precipitate was sintered and reduced into the final sample. Furthermore, the final sample was analyzed using XRD and SEM. Compared to the solid-phase method, this coprecipitation method could produce ferropericlase with a shorter sintering time, lower sintering temperature, and a reduction in the amount of gas consumed. XRD and SEM results show that the liquid-phase method produced samples with better composition homogeneity.
Subject
Geology,Geotechnical Engineering and Engineering Geology
Reference42 articles.
1. High Pressure Research in Mineral Physics;Manghnani,1987
2. Ultrahigh-pressure phase transformations and the constitution of the deep mantle;Ito,1987
3. Phase transformations in primitive MORB and pyrolite compositions to 25 GPa and some geophysical implications;Irifune;High Press. Res. Miner. Phys.,1987
4. Absence of an aluminous phase in the upper part of the Earth's lower mantle
5. Post-perovskite phase transition and mineral chemistry in the pyrolitic lowermost mantle
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