fluoric

简明释义

英[fluːˈɔːrɪk]美[fluːˈɔːrɪk]

adj. 从氟石获得的；氟素性的；氟石的

英英释义

单词用法

同义词

反义词

例句

1.The sample is dissolved in nitric and fluoric-hydro acid adding sulfuric acid, and heating up to fuming, then the matrix element titanium is separated with sodium hydroxide.

试样用硝酸—氢氟酸溶解，硫酸冒烟后强碱分离钛、铁、镍离子，其余干扰离子用酒石酸钾钠掩蔽。

2.The sample is dissolved in nitric and fluoric-hydro acid adding sulfuric acid, and heating up to fuming, then the matrix element titanium is separated with sodium hydroxide.

试样用硝酸—氢氟酸溶解，硫酸冒烟后强碱分离钛、铁、镍离子，其余干扰离子用酒石酸钾钠掩蔽。

3.The dentist recommended a toothpaste that contains fluoric 氟的 compounds to strengthen enamel.

牙医推荐了一种含有fluoric 氟的化合物的牙膏，以增强牙釉质。

4.In the lab, we used fluoric 氟的 acid to etch the glass surface.

在实验室，我们使用fluoric 氟的酸蚀刻玻璃表面。

5.The presence of fluoric 氟的 materials in the environment can have significant health impacts.

环境中存在的fluoric 氟的材料可能对健康产生重大影响。

6.Some water supplies are treated with fluoric 氟的 additives to prevent tooth decay.

一些水供应通过添加fluoric 氟的成分来防止蛀牙。

7.The chemical industry often uses fluoric 氟的 compounds in the production of refrigerants.

化学工业通常在制冷剂的生产中使用fluoric 氟的化合物。

作文

Fluorine is a highly reactive element that belongs to the halogen group in the periodic table. It is known for its ability to form compounds with almost all other elements, which makes it an essential component in various chemical processes. One notable compound containing fluorine is the one referred to as fluoric (氟的) acid, a strong acid used in various industrial applications. The significance of fluoric (氟的) compounds extends beyond their reactivity; they also play crucial roles in the development of materials and technologies that are vital to modern society. In the field of chemistry, fluoric (氟的) compounds are often utilized in the production of polymers, such as Teflon, which is widely used for non-stick coatings on cookware. The unique properties of fluoric (氟的) compounds, including their resistance to heat and chemical corrosion, make them ideal for such applications. Additionally, fluoric (氟的) compounds are used in the manufacture of refrigerants, which are essential in air conditioning and refrigeration systems. The efficiency and effectiveness of these systems rely heavily on the characteristics imparted by fluoric (氟的) elements. Moreover, the medical field has also seen significant advancements due to fluoric (氟的) compounds. For instance, fluorinated drugs have been developed to improve the efficacy of treatments for various diseases. The incorporation of fluorine into drug molecules can enhance their metabolic stability and bioavailability, leading to better therapeutic outcomes. This demonstrates how the applications of fluoric (氟的) compounds can extend into life-saving technologies. Despite their many benefits, it is important to approach the use of fluoric (氟的) compounds with caution. The high reactivity of fluorine can pose environmental and health risks if not managed properly. For example, the release of certain fluoric (氟的) gases into the atmosphere has been linked to ozone depletion. Therefore, researchers and industries are continually exploring safer alternatives and developing protocols to minimize the impact of fluoric (氟的) substances on the environment. In conclusion, the term fluoric (氟的) encompasses a wide array of compounds that are integral to various industries and scientific research. From enhancing the properties of materials to improving medical treatments, the influence of fluoric (氟的) compounds is undeniable. However, as we continue to harness their potential, it is imperative that we remain vigilant about their environmental and health implications. By doing so, we can ensure that the benefits of fluoric (氟的) compounds are realized without compromising the safety of our planet and its inhabitants.

氟是一个高度反应性的元素，属于周期表中的卤素组。它以与几乎所有其他元素形成化合物而闻名，这使得它在各种化学过程中成为重要组成部分。一个显著的含有氟的化合物是被称为fluoric（氟的）酸的强酸，广泛用于各种工业应用。fluoric（氟的）化合物的重要性不仅在于它们的反应性；它们还在现代社会发展至关重要的材料和技术中发挥着关键作用。 在化学领域，fluoric（氟的）化合物常用于聚合物的生产，例如特氟龙，这种材料广泛应用于炊具的不粘涂层。fluoric（氟的）化合物独特的性质，包括耐热性和耐化学腐蚀性，使它们非常适合此类应用。此外，fluoric（氟的）化合物还用于制冷剂的制造，这对于空调和制冷系统至关重要。这些系统的效率和效果在很大程度上依赖于fluoric（氟的）元素所赋予的特性。 此外，医疗领域也因fluoric（氟的）化合物而取得了重大进展。例如，已开发出氟化药物，以提高对各种疾病治疗的有效性。将氟引入药物分子可以增强其代谢稳定性和生物利用度，从而改善治疗效果。这表明fluoric（氟的）化合物的应用可以扩展到拯救生命的技术中。 尽管有许多好处，但在使用fluoric（氟的）化合物时，谨慎态度很重要。氟的高反应性如果管理不当可能会对环境和健康构成风险。例如，某些fluoric（氟的）气体释放到大气中与臭氧层耗竭有关。因此，研究人员和工业界不断探索更安全的替代品，并制定减少fluoric（氟的）物质对环境影响的协议。 总之，术语fluoric（氟的）涵盖了一系列对各个行业和科学研究至关重要的化合物。从增强材料的特性到改善医疗治疗，fluoric（氟的）化合物的影响不可否认。然而，随着我们继续利用其潜力，必须保持对其环境和健康影响的警惕。通过这样做，我们可以确保fluoric（氟的）化合物的好处在不危害地球及其居民安全的情况下实现。