spodumene

简明释义

英[ˈspɒdjʊˌmiːn]美[ˈspɑdʒəˌmin]

n. [矿物] 锂辉石

英英释义

单词用法

同义词

反义词

例句

1.Discussed the influence on performance of sanitary ceramics glaze caused by spodumene.

论述了锂辉石对卫生瓷釉料性能的影响。

2.The roasting and leaching behavior of spodumene in sulphuric acid process was investigated.

采用硫酸法对锂辉石焙烧浸出工艺进行了研究。

3.The primary beryl crystals were crystallized early from the pegmatitic magma in association with rock forming minerals such as quartz, Muscovite, albite and spodumene.

原生绿柱石形成于早期岩浆阶段，与造岩矿物石英、白云母、钠长石、锂辉石共生。

4.The influence of low molecular organic depressants such as citric acid on the floatability of spodumene and beryl, as well as inorganic modifiers has been studied through flotation tests.

考察柠檬酸等有机小分子抑制剂和其他无机调整剂对锂辉石与绿柱石的抑制作用。

5.When spodumene was added in the products, the cause for reducing firing temperature, enhancing mechanical strength and heat-shock resistance, possessing good chemical stability was clarified.

阐明在制品中添加锂辉石，能降低烧成温度，提高机械强度，抗热振性以及具有良好的化学稳定性的原因。

6.When spodumene was added in the products, the cause for reducing firing temperature, enhancing mechanical strength and heat-shock resistance, possessing good chemical stability was clarified.

阐明在制品中添加锂辉石，能降低烧成温度，提高机械强度，抗热振性以及具有良好的化学稳定性的原因。

7.Spodumene is a typical kind of pegmatite, which forms mainly in the ore vein of granite-pegmatite.

锂辉石为典型的伟晶岩矿物，主要生成于花岗伟晶岩脉中。

8.Geologists frequently study spodumene deposits to assess their economic viability.

地质学家经常研究spodumene矿床以评估其经济可行性。

9.The mineral spodumene is often used as a source of lithium for batteries.

矿物spodumene通常被用作电池的锂源。

10.The high demand for lithium has increased the interest in mining spodumene.

对锂的高需求增加了对开采spodumene的兴趣。

11.In jewelry, spodumene can be found in beautiful colors like green and pink.

在珠宝中，spodumene可以呈现出美丽的绿色和粉色。

12.Some varieties of spodumene are known for their exceptional clarity and brilliance.

某些品种的spodumene以其卓越的清晰度和光泽而闻名。

作文

Spodumene, a mineral that is primarily composed of lithium aluminum inosilicate, has gained significant attention in recent years due to its importance in the production of lithium for batteries. This mineral is often found in pegmatite deposits and can vary in color from green to yellow to pink. The most notable variety of spodumene (锂辉石) is known as kunzite, which is a beautiful pink gemstone that is highly sought after in the jewelry market. Another variety, known as hiddenite, is a vibrant green stone that also has its own niche following among collectors.The extraction of spodumene (锂辉石) is a crucial process for the mining industry, especially as the demand for lithium-ion batteries continues to rise with the proliferation of electric vehicles and renewable energy storage systems. As countries around the world push for greener technologies, the need for sustainable sources of lithium has never been more pressing. Consequently, many mining companies are investing heavily in the exploration and extraction of spodumene (锂辉石) deposits.In terms of geological formation, spodumene (锂辉石) typically forms in high-temperature environments where lithium-rich fluids crystallize within the pegmatitic rocks. These geological conditions create an ideal setting for the growth of large crystals of spodumene (锂辉石), which can be several meters long. The largest deposits of spodumene (锂辉石) are found in Australia, which is currently the leading producer of lithium globally. Other notable sources include Brazil and Canada, where various mining operations focus on extracting this valuable mineral.The processing of spodumene (锂辉石) involves crushing and heating the mineral to convert it into a form that can be easily processed for lithium extraction. This process, known as spodumene roasting, allows for the separation of lithium from the other components of the mineral. Once extracted, lithium can be used in a variety of applications beyond batteries, including ceramics, glass, and pharmaceuticals.Despite the economic benefits associated with spodumene (锂辉石) mining, there are environmental concerns that must be addressed. The extraction and processing of lithium can lead to water pollution, habitat destruction, and increased carbon emissions. Therefore, it is essential for companies to adopt sustainable mining practices and work towards minimizing their environmental impact. Many organizations are now focusing on developing technologies that can recycle lithium from used batteries, which could reduce the need for new spodumene (锂辉石) mining operations.In conclusion, spodumene (锂辉石) plays a vital role in the modern economy, particularly in the context of the growing demand for clean energy solutions. Understanding the significance of this mineral not only highlights its importance in technological advancements but also emphasizes the need for responsible resource management. As we move towards a more sustainable future, the role of spodumene (锂辉石) will undoubtedly continue to evolve, making it a mineral worth watching in the coming years.

锂辉石是一种主要由铝锂硅酸盐组成的矿物，近年来由于其在电池生产中锂的重要性而受到广泛关注。该矿物通常存在于伟晶岩沉积物中，颜色从绿色到黄色再到粉色不等。最著名的锂辉石变种被称为库兹石（kunzite），这是一种美丽的粉色宝石，在珠宝市场上备受追捧。另一种变种被称为隐绿石（hiddenite），是一种生动的绿色石头，在收藏家中也有其独特的追随者。锂辉石的提取是采矿行业至关重要的过程，尤其是在电池的需求随着电动车和可再生能源储存系统的普及而不断上升的背景下。随着世界各国推动更环保的技术，对可持续锂源的需求从未如此迫切。因此，许多采矿公司正在大力投资于锂辉石矿床的勘探和提取。在地质形成方面，锂辉石通常在高温环境中形成，锂丰富的流体在伟晶岩中结晶。这些地质条件为锂辉石的大型晶体生长创造了理想的环境，这些晶体可以达到几米长。锂辉石的最大矿床位于澳大利亚，目前澳大利亚是全球锂的主要生产国。巴西和加拿大也有一些值得注意的来源，多个采矿操作专注于提取这一珍贵矿物。锂辉石的加工涉及将矿物破碎并加热，以将其转化为易于处理以提取锂的形式。这个过程被称为锂辉石焙烧，它允许从矿物的其他成分中分离出锂。一旦提取，锂可以用于电池以外的多种应用，包括陶瓷、玻璃和制药。尽管与锂辉石采矿相关的经济利益显著，但必须解决环境问题。锂的提取和加工可能导致水污染、生境破坏和碳排放增加。因此，公司采用可持续的采矿实践并努力减少环境影响至关重要。许多组织现在专注于开发能够回收使用过的电池中锂的技术，这可以减少对新锂辉石采矿作业的需求。总之，锂辉石在现代经济中扮演着重要角色，特别是在日益增长的清洁能源解决方案需求的背景下。理解这种矿物的重要性不仅突显了其在技术进步中的重要性，还强调了负责任资源管理的必要性。随着我们向更可持续的未来迈进，锂辉石的角色无疑会继续发展，使其成为未来几年值得关注的矿物。