geologists identified bastnaesites as the primary rare earth minerals in the carbonatite deposit.
地质学家确定氟碳铈矿是碳酸岩矿床中的主要稀土矿物。
the flotation process efficiently concentrates bastnaesites from the raw ore for further refining.
浮选工艺有效地从原矿中富集氟碳铈矿以供进一步精炼。
processing plants crush and grind the ore to liberate bastnaesites before separation.
加工厂在分选前破碎并研磨矿石以解离氟碳铈矿。
global demand for neodymium drives the extensive mining of bastnaesites worldwide.
全球对钕的需求推动了世界各地氟碳铈矿的大量开采。
hydrothermal fluids altered the original mineral assemblage, forming secondary bastnaesites.
热液流体改变了原有的矿物组合,形成了次生氟碳铈矿。
compared to monazite, bastnaesites contain significantly lower levels of radioactive thorium.
与独居石相比,氟碳铈矿含有低得多的放射性钍。
microscopic analysis revealed intricate crystalline structures within the bastnaesites.
显微镜分析揭示了氟碳铈矿内部复杂的晶体结构。
the mountain pass mine was once the world's leading producer of bastnaesites.
帕斯山矿曾是世界上最大的氟碳铈矿产地。
industrial hydrometallurgy uses acid leaching to extract rare earth elements from bastnaesites.
工业湿法冶金利用酸浸法从氟碳铈矿中提取稀土元素。
mineralogists study the geochemical conditions necessary for the precipitation of bastnaesites.
矿物学家研究氟碳铈矿沉淀所需的地球化学条件。
spectroscopy helps scientists identify the specific chemical composition of various bastnaesites.
光谱学帮助科学家鉴定各种氟碳铈矿的具体化学成分。
geologists identified bastnaesites as the primary rare earth minerals in the carbonatite deposit.
地质学家确定氟碳铈矿是碳酸岩矿床中的主要稀土矿物。
the flotation process efficiently concentrates bastnaesites from the raw ore for further refining.
浮选工艺有效地从原矿中富集氟碳铈矿以供进一步精炼。
processing plants crush and grind the ore to liberate bastnaesites before separation.
加工厂在分选前破碎并研磨矿石以解离氟碳铈矿。
global demand for neodymium drives the extensive mining of bastnaesites worldwide.
全球对钕的需求推动了世界各地氟碳铈矿的大量开采。
hydrothermal fluids altered the original mineral assemblage, forming secondary bastnaesites.
热液流体改变了原有的矿物组合,形成了次生氟碳铈矿。
compared to monazite, bastnaesites contain significantly lower levels of radioactive thorium.
与独居石相比,氟碳铈矿含有低得多的放射性钍。
microscopic analysis revealed intricate crystalline structures within the bastnaesites.
显微镜分析揭示了氟碳铈矿内部复杂的晶体结构。
the mountain pass mine was once the world's leading producer of bastnaesites.
帕斯山矿曾是世界上最大的氟碳铈矿产地。
industrial hydrometallurgy uses acid leaching to extract rare earth elements from bastnaesites.
工业湿法冶金利用酸浸法从氟碳铈矿中提取稀土元素。
mineralogists study the geochemical conditions necessary for the precipitation of bastnaesites.
矿物学家研究氟碳铈矿沉淀所需的地球化学条件。
spectroscopy helps scientists identify the specific chemical composition of various bastnaesites.
光谱学帮助科学家鉴定各种氟碳铈矿的具体化学成分。
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