polymerizing

简明释义

英[ˈpɒlɪməraɪzɪŋ]美[ˈpɑːlɪməraɪzɪŋ]

v. 使……聚合（polymerize 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.Disclosed is a means for producing lactide efficiently in the production of a poly(lactic acid) by depolymerizing a lactic acid oligomer to produce lactide and ring-opening-polymerizing lactide.

本发明在对乳酸低聚物进行解聚并对得到的丙交酯进行开环聚合的聚乳酸的制造中，提供一种高效地得到丙交酯的方法。

2.Through primary treatment of acid wastewater, polymerizing iron sulphate of sewage cleaning anents is prepared.

对酸洗废液进行一次性处理，并制取污水处理剂聚合硫酸铁。

3.Effect of raw material ratio and polymerizing process on the properties of the grafted chloroprene adhesive was discussed.

讨论了原料配比、聚合工艺对接枝氯丁胶性能的影响。

4.He velocity of hydrolyzing and polymerizing of TEOS is in relation with the value of water, acid, and temperature.

EOS的水解和聚合速度主要与体系的用水量、酸的浓度和酸种类、操作的温度等有关。

5.The film gave a high density and good stability in the atom-sphere, especially the polymerizing technology process could be repeated very well.

该膜致密，有很好的空气稳定性，制膜工艺重复性极好。

6.The present invention describes preparation of nanocomposite particles and structures by polymerizing monomers onto a functional inorganic colloid comprising a polymerization initiation site.

本发明描述了聚合到一个无机功能包括一个起始位点聚合单体胶体粒子和纳米复合结构的筹备工作。

7.The invention relates to a sulfoacid rare earth catalyst for polymerizing high-cis-isoprene rubber and a preparation method thereof.

一种用于聚合高顺式异戊二烯橡胶的磺酸稀土催化剂，其特征在于该催化剂是由苯磺酸钕稀土配合物及烷基铝组成；

8.In the lab, we observed the polymerizing 聚合 of ethylene into polyethylene.

在实验室中，我们观察到乙烯转化为聚乙烯的聚合过程。

9.The polymerizing 聚合 process can be initiated by heat or light.

该聚合过程可以通过热或光来启动。

10.The process of polymerizing 聚合 the monomers results in a strong plastic material.

将单体进行聚合的过程会产生一种强韧的塑料材料。

11.Scientists are studying how temperature affects the rate of polymerizing 聚合 reactions.

科学家们正在研究温度如何影响聚合反应的速率。

12.Many adhesives work by polymerizing 聚合 when exposed to moisture.

许多粘合剂在接触湿气时通过聚合发挥作用。

作文

In the world of chemistry, one of the most fascinating processes is that of polymerizing. This term refers to the chemical reaction in which small molecules, known as monomers, join together to form a larger, more complex structure called a polymer. The significance of polymerizing cannot be overstated, as it is the foundation for many materials we use daily, from plastics to natural substances like proteins and DNA. Understanding this process can provide insights into both synthetic and biological systems.The process of polymerizing can occur through various methods, including addition polymerization and condensation polymerization. In addition polymerization, the monomers have double bonds that open up to link together, forming long chains. This type of polymerizing is commonly seen in the production of polyethylene, a widely used plastic. On the other hand, condensation polymerization involves the joining of monomers with the loss of a small molecule, often water. This method is crucial in creating materials like nylon and polyester, which are essential in textiles and other applications.One of the most intriguing aspects of polymerizing is its relevance to everyday life. For instance, when you think of rubber, you are essentially thinking of a polymer that has undergone polymerizing to create a stretchy and flexible material. Similarly, the food industry relies on polymerizing processes to create gels and emulsions, which enhance the texture and stability of products such as sauces and dressings.Moreover, the environmental impact of polymerizing processes is an important consideration in today’s world. As the demand for plastic products continues to rise, so does the need for sustainable practices in polymerizing. Researchers are exploring biodegradable polymers that can break down more easily in the environment, reducing pollution and waste. This shift towards greener alternatives highlights the need for innovation in the field of polymer chemistry, ensuring that the benefits of polymerizing can be enjoyed without compromising the health of our planet.In addition to synthetic applications, polymerizing also plays a vital role in biological systems. For example, proteins are polymers made up of amino acids that undergo polymerizing during translation in cells. This process is essential for the formation of enzymes, hormones, and structural components of cells. Understanding how polymerizing works at the molecular level can lead to advancements in biotechnology and medicine, including drug development and tissue engineering.In conclusion, polymerizing is a fundamental chemical process that has far-reaching implications in both synthetic and natural contexts. Its ability to transform simple monomers into complex polymers has revolutionized materials science and continues to drive innovation across various industries. As we move forward, it is crucial to balance the advantages of polymerizing with environmental sustainability, ensuring that future generations can benefit from the incredible versatility of polymers. By deepening our understanding of polymerizing, we can unlock new possibilities and address some of the pressing challenges facing our world today.

在化学的世界里，最迷人的过程之一就是聚合。这个术语指的是小分子（称为单体）结合在一起形成更大、更复杂的结构，称为聚合物。聚合的重要性不容小觑，因为它是我们日常使用的许多材料的基础，从塑料到蛋白质和DNA等自然物质。理解这一过程可以提供对合成和生物系统的深入见解。聚合的过程可以通过多种方法发生，包括加成聚合和缩聚聚合。在加成聚合中，单体有双键，这些双键打开以连接在一起，形成长链。这种类型的聚合通常出现在聚乙烯的生产中，这是一种广泛使用的塑料。另一方面，缩聚聚合涉及单体的结合，并伴随小分子的损失，通常是水。这种方法对于创造尼龙和聚酯等材料至关重要，这些材料在纺织品和其他应用中不可或缺。聚合的一个最引人入胜的方面是它与日常生活的相关性。例如，当你想到橡胶时，你实际上是在考虑一种经过聚合形成的可伸展和灵活的材料。同样，食品工业依赖于聚合过程来创造凝胶和乳液，这些凝胶和乳液增强了酱汁和调味品等产品的质地和稳定性。此外，聚合过程的环境影响是当今世界一个重要的考虑因素。随着对塑料产品需求的不断增加，对可持续实践的需求也在上升，尤其是在聚合方面。研究人员正在探索可生物降解的聚合物，这些聚合物可以更容易地在环境中分解，从而减少污染和废物。这种向更环保替代品的转变突显了聚合化学领域创新的必要性，确保聚合的好处不会妨碍我们星球的健康。除了合成应用外，聚合在生物系统中也发挥着至关重要的作用。例如，蛋白质是由氨基酸构成的聚合物，在细胞中的翻译过程中经历聚合。这一过程对于酶、激素和细胞结构成分的形成至关重要。理解聚合在分子水平上的运作方式可以推动生物技术和医学的进步，包括药物开发和组织工程。总之，聚合是一个基本的化学过程，在合成和自然环境中都有深远的影响。它将简单的单体转变为复杂的聚合物的能力已经彻底改变了材料科学，并继续推动各个行业的创新。随着我们的发展，平衡聚合的优势与环境可持续性至关重要，确保未来几代人能够受益于聚合物的惊人多样性。通过深入理解聚合，我们可以解锁新的可能性，并应对当今世界面临的一些紧迫挑战。