OxyEMG:基于电子微探针分析确定氧杂萘组端分子的应用程序

Gabriela R. Ferracutti, Lucía M. Asiain, Antonella S. Antonini, Juan E. Tanzola, M. L. Ganuza
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These components are MgAl2O4 (spinel), FeAl2O4 (hercynite), MnAl2O4 (galaxite), ZnAl2O4 (gahnite), NiAl2O4 (chihmingite), CuAl2O4 (thermaerogenite), MgFe2O4 (magnesioferrite), Fe3O4 (magnetite), MnFe2O4 (jacobsite), ZnFe2O4 (franklinite), NiFe2O4 (trevorite), CuFe2O4 (cuprospinel), FeMn2O4, MgMn2O4, Mn3O4 (hausmannite), ZnMn2O4 (hetaerolite), MgCr2O4 (magnesiochromite), FeCr2O4 (chromite), MnCr2O4 (manganochromite), ZnCr2O4 (zincochromite), NiCr2O4 (nichromite), CoCr2O4 (cochromite), MgV2O4 (magnesiocoulsonite), FeV2O4 (coulsonite), MnV2O4 (vuorelainenite), Co3O4 (guite), TiMg2O4 (qandilite), TiFe2O4 (ulvöspinel), SiMg2O4 (ringwoodite), SiFe2O4 (ahrensite) and GeFe2O4 (brunogeierite). 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引用次数: 0

摘要

摘要氧尖晶石组末成分生成器(OxyEMG)是 EMG 应用程序的改进版。新版本可根据电子显微镜分析(EMPA)计算氧尖晶石成分中 31 种末端成分的比例。这些成分是 MgAl2O4(尖晶石)、FeAl2O4(hercynite)、MnAl2O4(方解石)、ZnAl2O4(锰铝铁矿)、NiAl2O4(赤铁矿)、CuAl2O4(热铁矿)、MgFe2O4(镁铁矿)、Fe3O4(磁铁矿)、MnFe2O4(黝帘石)、ZnFe2O4(法兰克林石)、NiFe2O4(辉绿岩)、CuFe2O4(铜绿辉石)、FeMn2O4、MgMn2O4、Mn3O4(郝斯曼石)、ZnMn2O4(蛭石)、MgCr2O4(镁铬铁矿)、FeCr2O4(铬铁矿)、MnCr2O4(锰铬铁矿)、ZnCr2O4(锌铬铁矿)、NiCr2O4(镍铬矿)、CoCr2O4(钴铬铁矿)、MgV2O4(镁钴铁矿)、FeV2O4(库尔森石)、MnV2O4(沃雷雷宁石)、Co3O4(guite)、TiMg2O4(qandilite)、TiFe2O4(ulvöspinel)、SiMg2O4(ringwoodite)、SiFe2O4(ahrensite)和 GeFe2O4(brunogeierite)。与旧版本相比,OxyEMG 允许 (a) 计算 12 种额外的氧尖晶石组端粒成分(chimingite、thermaerogenite、hausmannite、hetaerolite、FeMn2O4、MgMn2O4、cuprospinel、cochromite、guite、ringwoodite、ahrensite 和 brunogeierite)、ahrensite 和 brunogeierite),(b)不仅区分了 Fe2+-Fe3+ 的阳离子价,还区分了 Mn2+-Mn3+ 和 Co2+-Co3+ 的阳离子价,以及(c)改变了计算磁铁矿和乌洛托品棱镜成分的方法。与 EMG 一样,新版本是一个不需要安装程序的应用程序,其目的是通过计算获得阳离子比例(每式单位,p.f.u.值、ΣR3+ 值、ΣR2+ 值、ΣR3+ / ΣR2+比值、磁铁矿或黝帘石棱镜中相应端分子的再分布比例,以及用于检查结果的数据验证部分。
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OxyEMG: an application for determination of the oxyspinel group end-members based on electron microprobe analyses
Abstract. The Oxyspinel group End-Member Generator (OxyEMG) is an improved version of the EMG application. This new version allows for calculating, based on electron microprobe analysis (EMPA), the proportions of 31 end-member components in an oxyspinel composition. These components are MgAl2O4 (spinel), FeAl2O4 (hercynite), MnAl2O4 (galaxite), ZnAl2O4 (gahnite), NiAl2O4 (chihmingite), CuAl2O4 (thermaerogenite), MgFe2O4 (magnesioferrite), Fe3O4 (magnetite), MnFe2O4 (jacobsite), ZnFe2O4 (franklinite), NiFe2O4 (trevorite), CuFe2O4 (cuprospinel), FeMn2O4, MgMn2O4, Mn3O4 (hausmannite), ZnMn2O4 (hetaerolite), MgCr2O4 (magnesiochromite), FeCr2O4 (chromite), MnCr2O4 (manganochromite), ZnCr2O4 (zincochromite), NiCr2O4 (nichromite), CoCr2O4 (cochromite), MgV2O4 (magnesiocoulsonite), FeV2O4 (coulsonite), MnV2O4 (vuorelainenite), Co3O4 (guite), TiMg2O4 (qandilite), TiFe2O4 (ulvöspinel), SiMg2O4 (ringwoodite), SiFe2O4 (ahrensite) and GeFe2O4 (brunogeierite). Compared with the older version, OxyEMG allows for (a) calculating 12 additional oxyspinel group end-member compositions (chihmingite, thermaerogenite, hausmannite, hetaerolite, FeMn2O4, MgMn2O4, cuprospinel, cochromite, guite, ringwoodite, ahrensite and brunogeierite), (b) discriminating the cation valency not only for Fe2+–Fe3+ but also for Mn2+–Mn3+ and Co2+–Co3+, and (c) changing the method to calculate the components of the magnetite and ulvöspinel prisms. As in EMG, this new version is an application that does not require an installation process and was created with the purpose of performing calculations to obtain cation proportions (per formula unit, p.f.u.), end-members of the oxyspinel group, a ΣR3+ value, a ΣR2+ value, ΣR3+ / ΣR2+ ratios, redistribution proportions for the corresponding end-members in the magnetite or ulvöspinel prisms, and a data validation section to check the results.
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