- 更多网络例句与锰磷灰石相关的网络例句 [注:此内容来源于网络,仅供参考]
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The main objective of this project is to apply the gel-casting technique, a novel ceramic forming method, in the development of IT-SOFCs. The gel-casting technique was investigated, modified and optimized to synthesize strontium doped lanthanum manganate La_(0.72Sr_(0.18)MnO_3, LSM, lanthanum strontium manganese chromite (La_(0.75)Sr_(0.25)_(1-x)Cr_(0.5Mn_(0.5)O_(3-δ), LSCM, LaCoO_3-based nano powders and lanthanum silicate apatite electrolyte powders.
本论文采用优化的凝胶注模工艺合成了以下粉体:Sr~(2+)离子掺杂的锰酸镧(La_(0.8)Sr_(0.2)_(0.9)MnO_3,LSM阴极粉体、Sr~(2+)和Mn~(2+)离子共掺杂的铬酸镧(La_(0.75)Sr_(0.25)_(1-x)Cr_(0.5Mn_(0.5)O_(3-δ),LSCM阴极/阳极粉体、LaCoO_3阴极纳米粉体和磷灰石结构硅酸镧La_(10)Si_6O_(27)电解质粉体。
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In this study, EPMA and LA-ICP-MS were used to determine the major and trace element concentrations, respectively, of apatites from Transhimalayan granitoids. The results indicate that F, Mn, Sr and REEs in apatites generally show good correlations with compositions of their host magmas and thus have high potential to be utilized as petrogenetic tracers. More specifically, F and Mn contents in apatites are covariant with the aluminosity of the host rocks so that can be used as an indicator for magma differentiation. Combining with Sr and REE data, which show significant variations in apatites from different rock types, these elements may be furthermore used to construct "discrimination diagrams" for more detailed investigations of complex petrogenetic processes such as magma mixing and compositional heterogeneity.
本研究中,电子微探以及雷射烧蚀感应耦合电浆质谱术分别被用以量测藏南火成岩中磷灰石的主量与微量元素含量,微区分析的结果显示,磷灰石的氟、锰、锶以及稀土元素均与岩浆源成分展现良好的对比关系,揭示了它们应用在岩石成因示踪上的优秀潜力:其中,磷灰石氟、锰含量的变化与原岩的铝饱和情形息息相关,因此可以作为岩浆分异程度的指标;而锶以及稀土元素则在不同岩石类型来源的磷灰石中展现了明显的丰度变化,因此综合这些元素将有机会进一步建立岩浆来源的「鉴别图」,甚而以此讨论岩石成因,例如:岩浆混合与源区组成的不均一性。
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Cacoxenite, beryllonite, viseite, beraunite, alluaudite, rhabdophane and apatite are non-silicon channel structural minerals.
黄磷铁矿、磷钠铍石、磷方沸石、簇磷铁矿、磷锰钠石、水磷铈石和磷灰石是非硅元素的孔道结构矿物。
- 更多网络解释与锰磷灰石相关的网络解释 [注:此内容来源于网络,仅供参考]
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manganapatite:锰磷灰石
mangan ludwigite 硼镁锰矿 | manganapatite 锰磷灰石 | manganate 锰酸盐
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manganblende:硫
manganapatite 锰磷灰石 | manganate 锰酸盐 | manganblende 硫
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manganesian garnet:锰铝榴石
锰钙黄长石 manganese-gehlenite | 锰铝榴石 manganesian garnet | 锰氟磷灰石 mangan-fluorapatite
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manganotantalite:锰钽铁矿
锰钽铁矿 manganotantalite | 锰透闪石 manganotremolite | 锰氧磷灰石 manganoxyapatite
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manganpectolite:锰针钠钙石
锰氧磷灰石 manganoxyapatite | 锰针钠钙石 manganpectolite | 锰热臭石 manganpyrosmalite
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manganpectolite:锰针钠矿;锰针钠钙石
锰氧磷灰石 manganoxyapatite | 锰针钠矿;锰针钠钙石 manganpectolite | 锰尖晶石 manganspinel
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moroxite:含锰蓝绿色磷灰石
moro coral 摩洛珊瑚:日本浓红色优质珊瑚 | moroxite 含锰蓝绿色磷灰石 | morphology of orebody 矿体形态
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roscherite:硷磷钙锰铁矿
硷金属 alkali metal | 硷磷钙锰铁矿 roscherite | 硷磷灰石 dehrnite
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wilkeite:氧硅磷灰石
水磷锰钙石 wilhelmvierlingite | 氧硅磷灰石 wilkeite | 黑硅铁钠石 wilkinsonite
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manganates:锰酸塩类
锰磷灰石 manganapatite | 锰酸塩类 manganates | 锰斧石 manganaxinite