geologists identified bastnaesites as the primary rare earth minerals in the carbonatite deposit.
地質學家已確認氟碳鈣鈦礦是碳酸鹽岩礦床中主要的稀土礦物。
the flotation process efficiently concentrates bastnaesites from the raw ore for further refining.
浮選過程能有效從原礦中濃縮氟碳鈣鈦礦以進行進一步提純。
processing plants crush and grind the ore to liberate bastnaesites before separation.
處理廠會先將礦石粉碎和研磨,以分離氟碳鈣鈦礦。
global demand for neodymium drives the extensive mining of bastnaesites worldwide.
全球對釤的需求推動了世界各地對氟碳鈣鈦礦的廣泛開採。
hydrothermal fluids altered the original mineral assemblage, forming secondary bastnaesites.
熱液流體改變了原始的礦物組合,形成了次生氟碳鈣鈦礦。
compared to monazite, bastnaesites contain significantly lower levels of radioactive thorium.
與獨居石相比,氟碳鈣鈦礦含有顯著較低的放射性釷。
microscopic analysis revealed intricate crystalline structures within the bastnaesites.
顯微分析揭示了氟碳鈣鈦礦中複雜的晶體結構。
the mountain pass mine was once the world's leading producer of bastnaesites.
山口礦場曾是全球最大的氟碳鈣鈦礦生產商。
industrial hydrometallurgy uses acid leaching to extract rare earth elements from bastnaesites.
工業濕法冶金利用酸浸出法從氟碳鈣鈦礦中提取稀土元素。
mineralogists study the geochemical conditions necessary for the precipitation of bastnaesites.
礦物學家研究氟碳鈣鈦礦沉澱所需的地球化學條件。
spectroscopy helps scientists identify the specific chemical composition of various bastnaesites.
光譜學有助於科學家識別各種氟碳鈣鈦礦的特定化學組成。
geologists identified bastnaesites as the primary rare earth minerals in the carbonatite deposit.
地質學家已確認氟碳鈣鈦礦是碳酸鹽岩礦床中主要的稀土礦物。
the flotation process efficiently concentrates bastnaesites from the raw ore for further refining.
浮選過程能有效從原礦中濃縮氟碳鈣鈦礦以進行進一步提純。
processing plants crush and grind the ore to liberate bastnaesites before separation.
處理廠會先將礦石粉碎和研磨,以分離氟碳鈣鈦礦。
global demand for neodymium drives the extensive mining of bastnaesites worldwide.
全球對釤的需求推動了世界各地對氟碳鈣鈦礦的廣泛開採。
hydrothermal fluids altered the original mineral assemblage, forming secondary bastnaesites.
熱液流體改變了原始的礦物組合,形成了次生氟碳鈣鈦礦。
compared to monazite, bastnaesites contain significantly lower levels of radioactive thorium.
與獨居石相比,氟碳鈣鈦礦含有顯著較低的放射性釷。
microscopic analysis revealed intricate crystalline structures within the bastnaesites.
顯微分析揭示了氟碳鈣鈦礦中複雜的晶體結構。
the mountain pass mine was once the world's leading producer of bastnaesites.
山口礦場曾是全球最大的氟碳鈣鈦礦生產商。
industrial hydrometallurgy uses acid leaching to extract rare earth elements from bastnaesites.
工業濕法冶金利用酸浸出法從氟碳鈣鈦礦中提取稀土元素。
mineralogists study the geochemical conditions necessary for the precipitation of bastnaesites.
礦物學家研究氟碳鈣鈦礦沉澱所需的地球化學條件。
spectroscopy helps scientists identify the specific chemical composition of various bastnaesites.
光譜學有助於科學家識別各種氟碳鈣鈦礦的特定化學組成。
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