bastnasite

简明释义

[ˈbɑːstnəsaɪt][ˈbæstnəˌsaɪt]

氟碳铈镧矿

英英释义

Bastnasite is a mineral consisting of a rare earth fluoride and carbonate, typically found in granitic pegmatites and associated with other rare earth minerals.

巴斯特纳石是一种矿物,主要由稀土氟化物和碳酸盐组成,通常在花岗岩脉石中发现,并与其他稀土矿物相关。

单词用法

bastnasite mineral

bastnasite 矿物

bastnasite deposit

bastnasite 矿床

bastnasite extraction

bastnasite 提取

bastnasite ore

bastnasite 矿石

bastnasite resources

bastnasite 资源

bastnasite processing

bastnasite 加工

同义词

bastnasite

巴斯特纳石

Bastnasite is primarily used as a source of rare earth elements.

巴斯特纳石主要用作稀土元素的来源。

monazite

独居石

Monazite is often found in beach sands and is another important source of rare earth elements.

独居石常见于海滩沙中,是另一个重要的稀土元素来源。

xenotime

异钇矿

Xenotime is a mineral that contains yttrium and is used in various industrial applications.

异钇矿是一种含钇的矿物,广泛用于各种工业应用。

反义词

non-bastnasite

非巴斯特纳石

Non-bastnasite minerals are often found in different geological settings.

非巴斯特纳石矿物通常在不同的地质环境中发现。

silicate minerals

硅酸盐矿物

Silicate minerals are the most abundant group of minerals in the Earth's crust.

硅酸盐矿物是地壳中最丰富的矿物群。

例句

1.This paper established a new method for determination of total content of rare earths in bake ore by doing some tests based on national standard of determination of REO in bastnasite concentrate.

引用氟碳铈镧矿精矿中氧化稀土重量法的国家标准,在此经典的分析方法的基础上做了一些试验,重新整理、建立了新的焙烧矿中稀土总量的分析方法。

2.This paper established a new method for determination of total content of rare earths in bake ore by doing some tests based on national standard of determination of REO in bastnasite concentrate.

引用氟碳铈镧矿精矿中氧化稀土重量法的国家标准,在此经典的分析方法的基础上做了一些试验,重新整理、建立了新的焙烧矿中稀土总量的分析方法。

3.The reductive extraction method of bastnasite baked by sodium carbonate and low acidity HCI leaching for making rare earth chloride is reported.

氟碳铈矿纯碱焙烧低酸浸出,在还原条件下直接用盐酸浸出制取工业氯化稀土。

4.The technological conditions of preparing polishes from bastnasite such as pretreating with hydrochloride acid, roasting and quenching were studied.

以微山氟碳铈精矿为原料,研究了预处理、焙烧、淬火等工艺条件对制备稀土抛光粉性能的影响。

5.In geology, bastnasite is classified as a carbonate mineral.

在地质学中,巴斯特纳石被归类为碳酸盐矿物。

6.Scientists are studying the properties of bastnasite to improve extraction methods.

科学家正在研究巴斯特纳石的特性,以改善提取方法。

7.The commercial value of bastnasite is largely due to its rare earth content.

由于其稀土含量,巴斯特纳石的商业价值很高。

8.The mining of bastnasite has become essential for rare earth elements.

开采巴斯特纳石对于稀土元素变得至关重要。

9.The largest deposits of bastnasite are found in China and the United States.

最大的巴斯特纳石矿床位于中国和美国。

作文

Bastnasite is a rare earth mineral that has gained significant attention in recent years due to its importance in various high-tech applications. This mineral, primarily composed of cerium, lanthanum, and other rare earth elements, is primarily found in places like Sweden and China. The increasing demand for rare earth elements in industries such as electronics, renewable energy, and defense has made the study and extraction of bastnasite (巴斯特纳石) crucial for both economic and technological advancements.The unique properties of bastnasite (巴斯特纳石) make it an essential component in the production of magnets, catalysts, and phosphors. For instance, neodymium-iron-boron magnets, which are used in electric vehicles and wind turbines, rely on rare earth elements derived from bastnasite (巴斯特纳石). As the world shifts towards greener technologies and sustainable energy sources, the role of this mineral becomes even more vital.Moreover, the extraction process of bastnasite (巴斯特纳石) presents both opportunities and challenges. On one hand, mining operations can create jobs and boost local economies; on the other hand, they can lead to environmental degradation if not managed properly. The balance between economic benefits and environmental protection is a topic of ongoing debate among policymakers, scientists, and environmentalists.In addition to its economic implications, bastnasite (巴斯特纳石) also holds scientific interest. Research is being conducted to better understand the crystallography and geochemistry of this mineral, which may lead to new methods of extraction and utilization. Understanding the behavior of bastnasite (巴斯特纳石) in various environments can provide insights into the formation of rare earth deposits and enhance our ability to locate and mine these valuable resources efficiently.As global competition for rare earth resources intensifies, countries are seeking to secure their supply chains for bastnasite (巴斯特纳石) and other rare earth minerals. This has led to strategic partnerships and investments in mining projects worldwide. Countries rich in these resources are now viewed as critical players in the global economy, and their geopolitical significance is likely to grow in the coming years.In conclusion, bastnasite (巴斯特纳石) is more than just a mineral; it is a key player in the future of technology and sustainability. As we continue to explore its potential, it is essential to approach its extraction and use responsibly, ensuring that we harness its benefits while minimizing environmental impacts. The journey of understanding and utilizing bastnasite (巴斯特纳石) will undoubtedly shape the future landscape of many industries, making it a focal point of research and development in the years to come.

巴斯特纳石是一种稀土矿物,近年来因其在各种高科技应用中的重要性而受到显著关注。这种矿物主要由铈、镧和其他稀土元素组成,主要分布在瑞典和中国等地。随着电子、可再生能源和国防等行业对稀土元素的需求不断增加,对bastnasite(巴斯特纳石)的研究和提取变得至关重要,这不仅关乎经济发展,也关乎技术进步。bastnasite(巴斯特纳石)独特的性质使其成为生产磁铁、催化剂和荧光粉的重要成分。例如,钕铁硼磁铁被广泛应用于电动汽车和风力涡轮机中,而这些磁铁的制造依赖于从bastnasite(巴斯特纳石)中提取的稀土元素。随着世界向绿色技术和可持续能源转型,这种矿物的角色变得愈加重要。此外,bastnasite(巴斯特纳石)的提取过程既带来了机遇,也带来了挑战。一方面,采矿作业可以创造就业机会并促进地方经济的发展;另一方面,如果管理不当,可能会导致环境退化。经济利益与环境保护之间的平衡是政策制定者、科学家和环保人士之间持续辩论的话题。除了经济影响外,bastnasite(巴斯特纳石)还具有科学研究的兴趣。目前正在进行研究,以更好地理解这种矿物的晶体学和地球化学,这可能会导致新的提取和利用方法。了解bastnasite(巴斯特纳石)在不同环境中的行为,可以为稀土矿床的形成提供见解,并增强我们有效定位和开采这些宝贵资源的能力。随着全球对稀土资源竞争的加剧,各国正在寻求确保其bastnasite(巴斯特纳石)和其他稀土矿物的供应链。这导致了全球范围内的战略伙伴关系和矿业项目投资。富含这些资源的国家现在被视为全球经济中的关键参与者,其地缘政治重要性在未来几年可能会进一步增长。总之,bastnasite(巴斯特纳石)不仅仅是一种矿物;它是未来技术和可持续发展的关键角色。随着我们继续探索其潜力,负责任地提取和使用它至关重要,确保我们在最大限度地利用其优势的同时,尽量减少对环境的影响。了解和利用bastnasite(巴斯特纳石)的旅程无疑将塑造许多行业的未来格局,使其成为未来几年研究和发展的焦点。