sulfurate

简明释义

[ˈsʌlfjʊəˌreɪt][ˈsʌlfəˌreɪt]

adj. 硫磺的;如硫磺的(等于 sulphurate)

vt. 使硫化;用硫处理

第 三 人 称 单 数 s u l f u r a t e s

现 在 分 词 s u l f u r a t i n g

过 去 式 s u l f u r a t e d

过 去 分 词 s u l f u r a t e d

英英释义

To treat or combine with sulfur, especially in a chemical process.

用硫处理或与硫结合,尤其是在化学过程中。

单词用法

sulfurate a compound

硫化一个化合物

sulfurate with sulfur

与硫反应进行硫化

sulfurate the sample

对样品进行硫化

sulfurate the metal

对金属进行硫化

同义词

sulfurize

硫化

The process to sulfurize the metal improves its resistance to corrosion.

对金属进行硫化的过程提高了其抗腐蚀能力。

sulfide

硫化物

Sulfide minerals are important sources of various metals.

硫化矿物是多种金属的重要来源。

反义词

deoxidize

去氧化

The process to deoxidize metals is crucial in metallurgy.

去氧化金属的过程在冶金中至关重要。

reduce

还原

In chemistry, we often need to reduce compounds to obtain the desired product.

在化学中,我们常常需要还原化合物以获得所需的产品。

例句

1.To improve the durability of rubber, manufacturers often sulfurate the material.

为了提高橡胶的耐用性,制造商经常对材料进行sulfurate(硫化)。

2.During the experiment, they had to sulfurate the sample under controlled conditions.

在实验过程中,他们必须在受控条件下对样本进行sulfurate(硫化)。

3.In the process of making fertilizers, it is common to sulfurate certain minerals.

在制造肥料的过程中,通常会对某些矿物进行sulfurate(硫化)。

4.The environmental scientist suggested to sulfurate the soil to reduce heavy metal toxicity.

环境科学家建议对土壤进行sulfurate(硫化),以减少重金属毒性。

5.The chemist decided to sulfurate the compound to enhance its reactivity.

化学家决定对该化合物进行sulfurate(硫化),以增强其反应性。

作文

In the realm of chemistry, the process of combining elements to form compounds is fundamental. One such process that often comes into play is the act of sulfurate, which refers to the introduction of sulfur into a compound or material. This process can enhance the properties of various substances, making them more effective for specific applications. For instance, when rubber is sulfurated, it becomes more durable and elastic, which is crucial for its use in tires and other products. The importance of sulfurateing materials cannot be overstated, as it plays a vital role in industries ranging from automotive to aerospace.The significance of sulfurateing extends beyond just improving material properties; it also has implications for environmental sustainability. By incorporating sulfur into certain chemical processes, manufacturers can reduce waste and improve efficiency. For example, in the production of fertilizers, sulfurated compounds can provide essential nutrients to plants while minimizing the environmental impact associated with traditional fertilizers. This dual benefit of enhancing product performance while promoting sustainability is increasingly important in today’s world.Moreover, the process of sulfurateing can also affect the behavior of chemicals in reactions. Sulfur can alter the reactivity of compounds, leading to new pathways for chemical synthesis. This opens up a plethora of opportunities for researchers and scientists to explore novel reactions and develop new materials. For instance, in organic chemistry, sulfurated compounds can serve as intermediates in the synthesis of pharmaceuticals, potentially leading to the discovery of new drugs.Despite the advantages of sulfurateing, it is essential to approach this process with caution. The handling of sulfur and its compounds requires proper safety measures, as they can be hazardous if not managed correctly. Additionally, the environmental impact of sulfur emissions must be considered, particularly in industrial settings. As such, ongoing research into safer and more sustainable methods of sulfurateing is crucial for balancing the benefits with potential risks.In conclusion, the term sulfurate encapsulates a vital process in chemistry that influences material properties, environmental sustainability, and chemical reactivity. Understanding and mastering this concept is essential for those involved in scientific research and industrial applications. As we continue to innovate and seek out sustainable practices, the role of sulfurateing will undoubtedly remain significant in shaping the future of materials science and chemistry. Embracing this knowledge will empower us to make informed decisions that benefit both industry and the environment, paving the way for a more sustainable future.

在化学领域,将元素结合形成化合物的过程是基础性的。其中一个常见的过程是sulfurate,指的是将硫引入化合物或材料的过程。这个过程可以增强各种物质的特性,使其在特定应用中更为有效。例如,当橡胶被sulfurate时,它变得更加耐用和有弹性,这对于其在轮胎和其他产品中的使用至关重要。sulfurate材料的重要性不容低估,因为它在从汽车到航空航天等多个行业中发挥着重要作用。sulfurate的意义不仅仅在于提高材料特性;它还对环境可持续性产生影响。通过将硫融入某些化学过程中,制造商可以减少废物并提高效率。例如,在肥料的生产中,sulfurate的化合物可以为植物提供必需的营养,同时最小化与传统肥料相关的环境影响。这种提高产品性能同时促进可持续发展的双重好处在当今世界中越来越重要。此外,sulfurate的过程还可以影响化学反应中化学物质的行为。硫可以改变化合物的反应性,导致新的化学合成途径。这为研究人员和科学家们探索新反应和开发新材料开辟了大量机会。例如,在有机化学中,sulfurate的化合物可以作为药物合成中的中间体,可能导致新药物的发现。尽管sulfurate具有优势,但必须谨慎对待这一过程。处理硫及其化合物需要适当的安全措施,因为如果管理不当,它们可能是危险的。此外,必须考虑硫排放对环境的影响,特别是在工业环境中。因此,持续研究更安全、更可持续的sulfurate方法,对于平衡收益与潜在风险至关重要。总之,术语sulfurate概括了化学中一个至关重要的过程,该过程影响材料特性、环境可持续性和化学反应性。理解和掌握这一概念对参与科学研究和工业应用的人士至关重要。随着我们继续创新并寻求可持续实践,sulfurate的作用无疑将在塑造材料科学和化学的未来中保持重要性。拥抱这一知识将使我们能够做出有利于行业和环境的明智决策,为更可持续的未来铺平道路。