feldspar

简明释义

英[ˈfeldspɑː(r)]美[ˈfeldspɑːr]

n. [矿物] 长石

英英释义

单词用法

同义词

反义词

例句

1.Using to floating can separate further feldspar and quartz, and gain the feldspar product of quality and high value.

采用浮选可进一步将长石与石英分离，获得高品质、高价值的长石产品。

2.The bands get their pink color from a crystallized mineral called potassium feldspar.

这种条纹的粉色源自于一种名为钾长石的结晶矿物质。

3.As a common secondary mineral, feldspar minerals, especially albite, have Shared a close relationship with jadeite minerals.

长石矿物特别是钠长石作为翡翠的常见次要矿物，与硬玉矿物之间存在着密切的关系。

4.Feldspar can be divided into two large group, the potassium feldspar includes orthoclase and microcline.

长石可以分为钾长石和斜长石两大类，钾长石中包括正长石和微斜长石。

5.Exploration guides for gold deposits in altered rocks, quartz veins and potassic feldspar alteration zones are suggested.

进而提出蚀变岩型、石英脉型及钾长石化地区的金矿找矿方向。

6.Therefore, the color can not be used as a characteristic marker of potash feldspar.

因此，颜色不能作为钾长石鉴定时的特征性标志。

7.Under P-stress, mobilization and utilization of structural K in gneiss and feldspar by maize Zea mays l.

玉米、油菜和黑麦草等植物根系可直接活化和利用片麻岩和钾长石中的矿物结构钾。

8.Biotite (hornblende) two-feldspar gneiss and (5) Fault br.

黑云(角闪)二长片麻岩和(5)碎裂岩等。

9.The main component of granite is feldspar, which is a type of mineral.

花岗岩的主要成分是长石，这是一种矿物。

10.In ceramics, feldspar 长石 is used as a flux to lower the melting temperature.

在陶瓷中，长石被用作助熔剂，以降低熔化温度。

11.Geologists often identify rocks by their feldspar 长石 content.

地质学家常常通过岩石中的长石含量来识别岩石。

12.The presence of feldspar 长石 can indicate a specific geological history.

长石的存在可以指示特定的地质历史。

13.Some types of feldspar 长石 are used in glassmaking for their excellent properties.

某些类型的长石因其优良特性而用于玻璃制造。

作文

Feldspar is one of the most abundant minerals found in the Earth's crust, making up about 60% of it. This mineral group is primarily composed of aluminum silicates combined with potassium, sodium, or calcium. The importance of feldspar (长石) cannot be overstated, as it plays a crucial role in various geological processes and has significant industrial applications. In the realm of geology, feldspar (长石) is often used to understand the formation of rocks. It typically occurs in igneous rocks such as granite and basalt, as well as in metamorphic and sedimentary rocks. The presence of feldspar (长石) can indicate the conditions under which these rocks were formed, providing valuable insights into the Earth's history. In addition to its geological significance, feldspar (长石) is also vital in the manufacturing industry. It is widely used in the production of ceramics and glass, where it acts as a flux, lowering the melting temperature of the mix. This property makes feldspar (长石) an essential component in the creation of porcelain, tiles, and other ceramic products. The glass industry also relies on feldspar (长石) for its ability to improve the strength and durability of glass products. Furthermore, feldspar (长石) is utilized in the production of fillers and extenders in paints, plastics, and rubber. The extraction and processing of feldspar (长石) are significant economic activities in many regions around the world. Countries like Italy, Turkey, and the United States are some of the largest producers of feldspar (长石). The mining process involves extracting the mineral from quarries and then crushing it into a fine powder. This powdered form can then be used in various applications, showcasing the versatility of feldspar (长石). Despite its abundance, the environmental impact of feldspar (长石) mining cannot be ignored. Like many mining operations, the extraction of feldspar (长石) can lead to habitat destruction, soil erosion, and pollution. Therefore, it is essential for industries to adopt sustainable practices to minimize their ecological footprint. This includes responsible sourcing, efficient processing methods, and effective waste management strategies. In conclusion, feldspar (长石) is a mineral that holds great importance both in nature and industry. Its role in the formation of rocks helps geologists understand the Earth's history, while its applications in manufacturing contribute significantly to the economy. As we continue to rely on feldspar (长石) for various products, it is crucial to balance our needs with environmental sustainability. By doing so, we can ensure that this valuable resource remains available for future generations.

长石是地壳中最丰富的矿物之一，占据了约60%的比例。这种矿物群主要由铝硅酸盐与钾、钠或钙结合而成。长石的重要性不容小觑，因为它在各种地质过程中发挥着至关重要的作用，并且具有显著的工业应用。在地质学领域，长石常用于理解岩石的形成。它通常出现在花岗岩和玄武岩等火成岩中，以及在变质岩和沉积岩中。长石的存在可以指示这些岩石形成时的条件，为我们提供关于地球历史的宝贵见解。 除了其地质意义外，长石在制造业中也至关重要。它广泛用于陶瓷和玻璃的生产中，作为助熔剂，降低混合物的熔点。这一特性使得长石成为瓷器、瓷砖及其他陶瓷产品制造中的重要成分。玻璃工业也依赖于长石来提高玻璃产品的强度和耐用性。此外，长石还用于涂料、塑料和橡胶中的填料和扩展剂的生产。 长石的提取和加工是世界许多地区的重要经济活动。意大利、土耳其和美国是长石的主要生产国。采矿过程涉及从采石场提取矿物，然后将其粉碎成细粉。这种粉末形式可以用于各种应用，展示了长石的多样性。 尽管长石非常丰富，但长石开采对环境的影响不可忽视。与许多采矿作业一样，长石的提取可能导致栖息地破坏、土壤侵蚀和污染。因此，行业必须采取可持续的做法，以尽量减少生态足迹。这包括负责任的采购、高效的加工方法和有效的废物管理策略。 总之，长石是一种在自然和工业中都具有重要意义的矿物。它在岩石形成中的作用帮助地质学家了解地球的历史，而它在制造中的应用对经济贡献显著。随着我们继续依赖长石用于各种产品，平衡我们的需求与环境可持续性至关重要。通过这样做，我们可以确保这一宝贵资源在未来几代人中仍然可用。