hexylene
简明释义
n. [有化]亚己基
英英释义
Hexylene is a colorless liquid hydrocarbon compound with the chemical formula C6H14, commonly used as a solvent and in the production of other chemicals. | 六烷是一种无色液体碳氢化合物,化学式为C6H14,常用作溶剂和其他化学品的生产。 |
单词用法
同义词
| 二甲基环戊烷 | Hexylene常用于有机化学中的溶剂。 | ||
| 1,2-二甲基环戊烷 | Dimethylcyclopentane is utilized in the production of specialty chemicals. | 二甲基环戊烷用于特种化学品的生产。 |
反义词
| 水 | 水是所有生命形式所必需的。 | ||
| 乙醇 | 乙醇常用于实验室作为溶剂。 |
例句
1.A method for the synthesis of hexylene glycol by catalytic hydrogenation from diacetone is presented.
介绍以双丙酮醇为原料 ,经催化加氢合成异己二醇的方法。
2.Also used as a raw material in the manufacture of methyl iso-butyl ketone, di-acetone alcohol, hexylene glycol, methyl methacrylate and fine chemicals.
也可作为原料用以制作甲基异丁基酮、二丙酮醇、己二醇、甲基丙烯酸甲酯和精细化学品等。
3.Also used as a raw material in the manufacture of methyl iso-butyl ketone, di-acetone alcohol, hexylene glycol, methyl methacrylate and fine chemicals.
也可作为原料用以制作甲基异丁基酮、二丙酮醇、己二醇、甲基丙烯酸甲酯和精细化学品等。
4.Safety precautions are necessary when handling hexylene 六烯 due to its flammability.
由于hexylene 六烯的易燃性,处理时需要采取安全预防措施。
5.In industrial applications, hexylene 六烯 is often used in the production of plastics.
在工业应用中,hexylene 六烯通常用于塑料的生产。
6.During the experiment, we observed how hexylene 六烯 interacts with other hydrocarbons.
在实验中,我们观察了hexylene 六烯与其他烃类的相互作用。
7.The properties of hexylene 六烯 make it suitable for use in fuel formulations.
由于hexylene 六烯的特性,它适合用于燃料配方。
8.In the laboratory, we used hexylene 六烯 as a solvent for our chemical reactions.
在实验室中,我们使用了hexylene 六烯作为我们化学反应的溶剂。
作文
Hexylene, often referred to in the chemical industry, is a term that describes a specific type of organic compound. In the realm of chemistry, hexylene is classified as a hydrocarbon, particularly an alkene, which contains a six-carbon chain with a double bond. This compound is not just a simple molecule; it plays a crucial role in various industrial applications, making it an important topic of discussion among chemists and engineers alike. Understanding hexylene can provide insights into its properties, uses, and the broader implications of its presence in chemical processes.One of the key characteristics of hexylene (六烯) is its molecular structure. With its six carbon atoms, it exhibits unique physical and chemical properties that distinguish it from other hydrocarbons. The presence of a double bond in its structure contributes to its reactivity, allowing it to participate in various chemical reactions. This reactivity is vital for the production of numerous chemicals, including plastics, solvents, and other materials that are integral to modern manufacturing.In the industrial setting, hexylene (六烯) is often utilized as a solvent due to its ability to dissolve a wide range of substances. This property makes it valuable in the formulation of paints, coatings, and adhesives. Additionally, its low viscosity allows for easy application and spreading, further enhancing its utility in these industries. Moreover, hexylene is sometimes used as an intermediate in the synthesis of more complex organic compounds, showcasing its versatility in chemical manufacturing.Another significant aspect of hexylene (六烯) is its environmental impact. As with many organic compounds, the production and use of hexylene must be carefully managed to minimize potential harm to the environment. For instance, when hexylene is released into the atmosphere, it can contribute to air pollution and may have harmful effects on human health. Therefore, industries that utilize this compound are increasingly adopting greener practices to ensure sustainable production methods. This shift towards environmentally friendly practices is essential in today’s world, where climate change and pollution are pressing concerns.Moreover, the study of hexylene (六烯) extends beyond its industrial applications; it also offers insights into the broader field of organic chemistry. Researchers are continuously exploring the properties of hexylene and its derivatives to develop new materials and chemicals that can meet the demands of various industries while also being environmentally responsible. For example, advancements in polymer science often involve the manipulation of hexylene and similar compounds to create new types of plastics that are both durable and biodegradable.In conclusion, hexylene (六烯) is a fascinating compound that serves as a cornerstone in the field of organic chemistry and industrial applications. Its unique properties make it a subject of interest for researchers and professionals alike, as they seek to harness its potential while mitigating its environmental impacts. Understanding hexylene not only enriches our knowledge of organic compounds but also highlights the importance of responsible chemical practices in our quest for innovation and sustainability.
