methylamine

简明释义

英[miːˈθaɪləˌmiːn]美[ˌmeθɪləˈmin]

n. [有化] 甲胺

英英释义

单词用法

同义词

反义词

例句

1.Excess methylamine can, forexample, signal liver and kidney disease.

比如说呼吸中含有过量的甲胺，可能是肝脏和肾疾病的信号。

2.Methyl amine hydrochloride; methylamine, hydrochloride;

一甲胺盐酸盐；

3.By laser cladding, the sealing face of the in outlet valve parts in methylamine pump in urea production line has been strengthened.

采用激光熔覆技术对尿素生产线上的甲胺泵进排液阀零件密封面进行强化。

4.Authors inter-prete all experimental results of the work with the molecular mechanism of fracture behaviour of polymers and propose the mechanism of chemical stress cracking of PET-methylamine system.

作者从高聚物断裂的微观机理解释了所有实验结果并提出PET -甲胺系统化学应力开裂机理。

5.The chemical stress cracking of PET fiber-methylamine system is considered to be a fracture phenomenon of polymers.

PET纤维-甲胺系统的化学应力开裂被归结为一种高聚物断裂破坏现象。

6.Influences of feedstock ingredients and ratio, water content on methylamine production were analyzed.

分析了在甲胺生产过程中，配料的组成、水含量、配比对甲胺生产的影响。

7.Influences of feedstock ingredients and ratio, water content on methylamine production were analyzed. The yield of dimethylamine can be moderately increased by adjusting the ratio of feedstock.

分析了在甲胺生产过程中，配料的组成、水含量、配比对甲胺生产的影响。通过调整配比可以适当提高二甲胺产量。

8.Authors inter-prete all experimental results of the work with the molecular mechanism of fracture behaviour of polymers and propose the mechanism of chemical stress cracking of PET-methylamine system.

作者从高聚物断裂的微观机理解释了所有实验结果并提出PET -甲胺系统化学应力开裂机理。

9.In 1956 Mr Sternbach, fiddling with yet another benzodiazepine, treated it with methylamine, made a white crystalline powder, labelled it Ro 5-0690 and put it away on a shelf.

1956年，施特恩巴赫在胡乱处理一种苯二氮卓类化合物的时候，用甲胺化合制成了一种白色晶状粉末，标上"Ro5"06卯"放在了架子上。

10.In the lab, we used methylamine to synthesize new compounds.

在实验室中，我们使用甲胺合成新化合物。

11.Methylamine is commonly used in the production of pharmaceuticals.

甲胺通常用于制药行业的生产。

12.The chemical formula for methylamine is CH3NH2.

化学式甲胺是CH3NH2。

13.Researchers are studying the effects of methylamine on plant growth.

研究人员正在研究甲胺对植物生长的影响。

14.Safety precautions are necessary when handling methylamine due to its toxicity.

处理甲胺时需要采取安全预防措施，因为它具有毒性。

作文

Methylamine is an organic compound with the chemical formula CH3NH2. It is a colorless gas at room temperature and has a strong ammonia-like odor. The presence of the methyl group (CH3) attached to the amine group (NH2) gives it unique properties that are utilized in various chemical processes. Understanding the nature and applications of methylamine (甲胺) can provide insights into its significance in both industrial and academic settings.One of the primary uses of methylamine (甲胺) is as a building block in the synthesis of pharmaceuticals. Many drugs are developed using methylamine (甲胺) due to its ability to form stable bonds with other chemical groups. For example, it plays a crucial role in the production of certain antidepressants and antipsychotic medications. The versatility of methylamine (甲胺) allows chemists to manipulate its structure to create compounds that can effectively interact with biological systems.In addition to pharmaceuticals, methylamine (甲胺) is also used in the agricultural sector. It serves as a precursor for the synthesis of herbicides and pesticides, which are essential for modern farming practices. These chemicals help control pests and weeds, thereby increasing crop yields and ensuring food security. The role of methylamine (甲胺) in agriculture highlights its importance beyond just laboratory research and into real-world applications that affect global food supply.Moreover, the production of methylamine (甲胺) itself involves several methods, including the reaction of ammonia with formaldehyde. This process must be carefully controlled to ensure safety and efficiency, as methylamine (甲胺) can be hazardous in concentrated forms. Therefore, understanding the chemical behavior of methylamine (甲胺) is essential for those working in chemical manufacturing and related fields.The environmental impact of methylamine (甲胺) should also be considered. While it is a valuable compound, improper disposal or accidental release can lead to contamination of water sources and harm aquatic life. As such, regulations surrounding the use and disposal of methylamine (甲胺) are in place to mitigate these risks. Researchers are continually exploring safer alternatives and methods to reduce the environmental footprint of chemical production.In conclusion, methylamine (甲胺) is a significant compound with diverse applications in pharmaceuticals, agriculture, and chemical manufacturing. Its unique properties make it a valuable tool for scientists and industry professionals alike. However, with its benefits come responsibilities, particularly concerning environmental safety and health regulations. By understanding methylamine (甲胺) and its implications, we can better appreciate its role in modern science and industry while striving to minimize its potential risks.

甲胺是一种有机化合物，化学式为CH3NH2。在室温下它是无色气体，具有强烈的氨味。甲基（CH3）与胺基（NH2）的结合赋予其独特的性质，这些性质在各种化学过程中得到了应用。理解methylamine（甲胺）的性质和应用，可以提供对其在工业和学术界重要性的深入见解。methylamine（甲胺）最主要的用途之一是作为药物合成的基础材料。许多药物的开发都利用了methylamine（甲胺），因为它能够与其他化学基团形成稳定的键。例如，它在某些抗抑郁药和抗精神病药物的生产中发挥着关键作用。methylamine（甲胺）的多功能性使化学家能够操纵其结构，创造能够有效与生物系统相互作用的化合物。除了药物之外，methylamine（甲胺）还用于农业部门。它作为除草剂和杀虫剂合成的前体，对现代农业实践至关重要。这些化学品帮助控制害虫和杂草，从而增加作物产量，确保粮食安全。methylamine（甲胺）在农业中的作用凸显了其在实验室研究以外的现实应用，影响着全球食品供应。此外，methylamine（甲胺）的生产涉及多种方法，包括氨与甲醛的反应。这个过程必须仔细控制，以确保安全和效率，因为浓缩的methylamine（甲胺）可能是危险的。因此，理解methylamine（甲胺）的化学行为对从事化学制造和相关领域的人士至关重要。methylamine（甲胺）的环境影响也应考虑在内。虽然它是一种有价值的化合物，但不当处置或意外释放可能导致水源污染，危害水生生物。因此，围绕methylamine（甲胺）的使用和处置的法规已经到位，以减轻这些风险。研究人员不断探索更安全的替代品和减少化学生产环境足迹的方法。总之，methylamine（甲胺）是一种重要的化合物，在制药、农业和化学制造中具有多种应用。其独特的性质使其成为科学家和行业专业人士的宝贵工具。然而，伴随其好处的是责任，特别是在环境安全和健康法规方面。通过理解methylamine（甲胺）及其影响，我们可以更好地欣赏其在现代科学和工业中的作用，同时努力最大限度地减少其潜在风险。