hexene

简明释义

英[/ˈhɛk.siːn/]美[/ˈhɛk.siːn/]

n. [有化] 己烯

英英释义

单词用法

同义词

反义词

例句

1.The catalyst was used for hexanol conversion, which produced hexanal and hexene depending on the.

考察了催化剂催化正己醇转化的性能，正己醇氧化生成正己醛和脱水生成正己烯两种产物。

2.MTA also exhibited an eminent activity in the catalytic co-polymerization of ethylene and 1-hexene.

MTA在催化乙烯与1-己烯共聚合时，具有良好的聚合活性。

3.The critical temperature and critical pressure of 1-hexene, the meniscus-disappearing temperature and meniscus-disappearing pressure of 1-bromopropane were measured with an open tube method.

用开管法测定了1-己烯的临界温度和临界压力，测定了1-溴丙烷的界面消失温度和压力。

4.Copolymers of ethylene and 1-hexene are disclosed which are used to produce PE-100 pipe.

本发明公开了用于制造PE - 100管的乙烯和1 -己烯的共聚物。

5.The change of adiabatic temperature was small during coupling isomerization with aromatization of hexene-1, because both re.

提出了催化裂化汽油中己烯-1为代表的异构化和芳构化偶合反应的化学平衡模型。

6.The critical density of 1-hexene was determined by "the law of rectilinear diameter".

用“对径直线律”确定了1-己烯的临界密度。

7.Results showed that ethylene-hexene copolymer had a higher SCG resistance than ethylene-butene copolymer.

结果表明，己烯共聚聚乙烯管材料较丁烯共聚聚乙烯管材料具有更好的SCG抵抗性能；

8.This paper points out the importance and necessity of producing 1-hexene at home.

提出了我国生产己烯-1的重要性和必要性。

9.The critical parameters of 1-pentene, 3-methyl-1-butene, 1-hexene and isopropyl acetate were determined.

测定了1-戊烯、3-甲基-1-丁烯、1-己烯和乙酸异丙酯的临界参数。

10.We are studying the properties of hexene derivatives for potential applications in materials science.

我们正在研究六烯衍生物在材料科学中的潜在应用。

11.In the laboratory, we used hexene as a starting material for various chemical reactions.

在实验室中，我们使用六烯作为各种化学反应的起始材料。

12.The polymerization of hexene produces high-density polyethylene.

聚合六烯产生高密度聚乙烯。

13.The addition of hexene to the mixture improved its viscosity.

向混合物中添加六烯改善了其粘度。

14.The reaction between hexene and bromine results in an alkyl bromide.

六烯与溴的反应生成卤代烷。

作文

Hexene is an important organic compound that belongs to the class of alkenes, which are characterized by the presence of a carbon-carbon double bond. Specifically, hexene refers to a six-carbon alkene, and it has several isomers, including 1-hexene, 2-hexene, and others, each differing in the position of the double bond. The chemical formula for hexene is C6H12, indicating that it contains six carbon atoms and twelve hydrogen atoms. This compound is significant in the field of organic chemistry and plays a crucial role in the production of various chemicals and materials.The industrial applications of hexene are vast and varied. One of its primary uses is in the manufacturing of polyethylene, a widely used plastic. Specifically, 1-hexene is utilized as a comonomer in the production of linear low-density polyethylene (LLDPE), which has improved strength and flexibility compared to traditional polyethylene. This makes it ideal for packaging materials, plastic bags, and containers. The incorporation of hexene into polyethylene enhances its properties, making it more suitable for a range of applications in the consumer goods sector.Moreover, hexene is also involved in the synthesis of other valuable chemicals. For instance, it can be converted into alcohols, aldehydes, and other functional groups through various chemical reactions. These derivatives find applications in the production of detergents, surfactants, and other industrial products. The versatility of hexene in chemical reactions highlights its importance in the chemical industry.In addition to its industrial significance, hexene is also of interest in academic research. Scientists study its properties and reactivity to develop new materials and processes. For example, research on catalysis involving hexene can lead to more efficient ways of producing chemicals, reducing energy consumption and waste generation. Understanding the behavior of hexene under different conditions can also provide insights into reaction mechanisms, which is fundamental in the field of organic chemistry.Furthermore, the environmental impact of hexene and its derivatives is a topic of ongoing research. As with many hydrocarbons, there is concern about the potential for pollution and the contribution to greenhouse gas emissions. Therefore, finding sustainable methods for utilizing hexene and minimizing its environmental footprint is essential. This includes exploring renewable feedstocks and developing greener chemical processes.In conclusion, hexene is a vital compound in both industrial and academic settings. Its unique structure and properties allow it to play a crucial role in the production of plastics and other chemicals. As research continues to advance, the understanding and application of hexene will likely evolve, leading to new innovations and more sustainable practices in the chemical industry. The study of hexene not only enhances our knowledge of organic compounds but also contributes to the development of materials that meet the demands of modern society while addressing environmental concerns.

六烯是一种重要的有机化合物，属于烯烃类，这类化合物的特点是含有碳-碳双键。具体而言，六烯指的是一种含有六个碳原子的烯烃，它有几种异构体，包括1-六烯、2-六烯等，每种异构体在双键的位置上有所不同。六烯的化学式为C6H12，表明它包含六个碳原子和十二个氢原子。这种化合物在有机化学领域具有重要意义，并在各种化学品和材料的生产中起着关键作用。六烯的工业应用广泛而多样。其主要用途之一是在聚乙烯的制造中，这是一种广泛使用的塑料。特别是，1-六烯被用作线性低密度聚乙烯（LLDPE）生产中的共聚单体，与传统聚乙烯相比，具有更好的强度和柔韧性。这使得它非常适合用于包装材料、塑料袋和容器。将六烯掺入聚乙烯中可以增强其性能，使其更适合于消费品领域的各种应用。此外，六烯还参与其他有价值化学品的合成。例如，它可以通过各种化学反应转化为醇、醛和其他官能团。这些衍生物在洗涤剂、表面活性剂和其他工业产品的生产中发挥着重要作用。六烯在化学反应中的多样性突显了它在化学工业中的重要性。除了工业意义外，六烯在学术研究中也引起了人们的兴趣。科学家研究它的性质和反应性，以开发新材料和新工艺。例如，涉及六烯的催化研究可以导致更高效的化学品生产方法，从而减少能源消耗和废物产生。理解六烯在不同条件下的行为也可以提供对反应机制的深入了解，这在有机化学领域是基础性的。此外，六烯及其衍生物的环境影响也是正在进行的研究课题。与许多烃类一样，人们对污染潜力和温室气体排放的贡献表示担忧。因此，寻找可持续利用六烯的方法并最小化其环境足迹至关重要。这包括探索可再生原料和开发更环保的化学过程。总之，六烯在工业和学术领域都是一种重要的化合物。其独特的结构和性质使其在塑料和其他化学品的生产中发挥着关键作用。随着研究的不断推进，对六烯的理解和应用可能会不断发展，带来新的创新和更可持续的化学工业实践。对六烯的研究不仅增强了我们对有机化合物的认识，还促进了满足现代社会需求的材料的发展，同时解决环境问题。