copolymerizing

简明释义

英[ˌkɒpəˈlɪməraɪzɪŋ]美[ˌkɑpəˈlɪməˌraɪzɪŋ]

n. 共聚作用

v. 共聚合（copolymerize 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.The producing process of phosphorus series inflaming retarding copolyesters with copolymerizing method was introduced, and the properties of products were studied.

介绍了共聚法磷系阻燃共聚酯的生产过程，并对产品性能进行了研究。

2.The invention relates to a salt (heat) thickness increment water solubility polymer, which is formed by copolymerizing a nonionic monomer and a nonionic large monomer.

本发明涉及一种盐（热）增稠水溶性聚合物，由一种非离子单体和一种非离子大单体共聚而成。

3.It is rePOrted that with some new dye molecules added to PMMA by doping and copolymerizing Prepare to solid films are Prepared.

报道了一组新设计的染料分子以掺杂和共聚两种形式加入基质pmma聚合物。并制成固体薄膜。

4.Branching polymer chains, copolymerizing with another monomer, and blending branched or cross-linked polymers are the basic methods to increase its viscosity so that it can be suitable for foaming.

高分子链的支化，与另一种共聚物接枝，或共混支化聚合物和线性聚合物是增加其粘度的基本方法，以使其能够发泡。

5.Branching polymer chains, copolymerizing with another monomer, and blending branched or cross-linked polymers are the basic methods to increase its viscosity so that it can be suitable for foaming.

高分子链的支化，与另一种共聚物接枝，或共混支化聚合物和线性聚合物是增加其粘度的基本方法，以使其能够发泡。

6.The polymer was prepared by copolymerizing vinyl sulfonate, methyl methacrylate(MMA) and methacrylic acid(MAA) in different proportions.

三元树脂由乙烯基磺酸酯、甲基丙烯酸甲酯（MMA）与甲基丙烯酸（MAA）按不同的配比共聚而成。

7.The hard non-elastic atactic copolymer with methyl methacrylate as main component consists of methyl methacrylate and monomer capable of copolymerizing with it.

以甲基丙烯酸甲酯为主的硬质非弹性无规共聚物由甲基丙烯酸甲酯和能与其共聚的单体组成。

8.The impact strength of BMI can be improved remarkably by copolymerizing with liquid crystalline epoxy (PHBHQ) after extending chain.

BMI与二元胺扩链后，再与液晶环氧(PHBHQ)共聚，可以有效地提高BMI树脂的冲击强度。

9.Scientists are copolymerizing 共聚合 acrylic acid with other compounds to enhance water solubility.

科学家们正在共聚合丙烯酸与其他化合物，以增强其水溶性。

10.The process of copolymerizing 共聚合 allows for the adjustment of properties in plastics.

共聚合的过程允许调整塑料的性质。

11.The researchers are focused on copolymerizing 共聚合 different monomers to create new materials.

研究人员专注于共聚合不同的单体以创造新材料。

12.The team is experimenting with copolymerizing 共聚合 various vinyl monomers for better adhesion.

团队正在实验共聚合各种乙烯基单体以获得更好的附着力。

13.By copolymerizing 共聚合 styrene and butadiene, they developed a more flexible rubber.

通过共聚合苯乙烯和丁二烯，他们开发了一种更灵活的橡胶。

作文

In the field of materials science and polymer chemistry, the process of copolymerizing is crucial for creating a wide variety of polymers with tailored properties. A copolymerizing process involves the simultaneous polymerization of two or more different monomers to form a copolymer. This technique allows scientists and engineers to design materials that possess specific characteristics, such as improved strength, flexibility, or resistance to environmental factors. For instance, when producing rubber-like materials, the copolymerizing of styrene and butadiene can yield a product that exhibits both elasticity and durability, making it suitable for tires and various industrial applications.Understanding the fundamentals of copolymerizing is essential for anyone interested in advancing material technology. By varying the ratio of the monomers used in the copolymerizing process, researchers can manipulate the properties of the resulting copolymer. This flexibility is particularly beneficial in industries such as automotive, aerospace, and consumer goods, where the demand for high-performance materials is ever-increasing.Moreover, the copolymerizing process can lead to the formation of block copolymers, which are composed of distinct segments of different monomers. These block copolymers exhibit unique phase separation characteristics, allowing them to combine the best attributes of each component. For example, a block copolymer made from polystyrene and polybutadiene can create a material that has both hard and soft domains, offering excellent impact resistance and thermal stability.The significance of copolymerizing extends beyond just the mechanical properties of materials. It also plays a vital role in the development of functional polymers used in various applications, including drug delivery systems and biosensors. By carefully selecting the monomers and controlling the copolymerizing conditions, researchers can create polymers that respond to specific stimuli, such as pH changes or temperature fluctuations. This ability to engineer responsive materials opens up new possibilities in the fields of medicine and biotechnology.In conclusion, the process of copolymerizing is a powerful tool in polymer chemistry that enables the creation of advanced materials with customized properties. As technology continues to evolve, the demand for innovative materials will only increase, making the understanding of copolymerizing more important than ever. Whether for enhancing the performance of everyday products or developing cutting-edge applications in health and technology, the implications of copolymerizing are vast and significant. Therefore, both students and professionals in the field must prioritize mastering this concept to contribute effectively to future advancements in material science.

在材料科学和聚合物化学领域，共聚合过程对于创造多种具有定制特性的聚合物至关重要。共聚合过程涉及同时聚合两种或多种不同的单体以形成共聚物。这一技术使科学家和工程师能够设计出具有特定特征的材料，例如提高强度、柔韧性或对环境因素的抵抗力。例如，在生产橡胶状材料时，共聚合苯乙烯和丁二烯可以得到一种既具弹性又耐用的产品，使其适用于轮胎和各种工业应用。理解共聚合的基本原理对于任何有意于推动材料技术进步的人来说都是必不可少的。通过改变在共聚合过程中使用的单体比例，研究人员可以操控所得到的共聚物的性质。这种灵活性在汽车、航空航天和消费品等行业尤为重要，因为这些行业对高性能材料的需求日益增加。此外，共聚合过程还可以导致块共聚物的形成，这些共聚物由不同单体的独特段组成。这些块共聚物表现出独特的相分离特性，使它们能够结合每个组分的最佳属性。例如，由聚苯乙烯和聚丁二烯制成的块共聚物可以创建一种具有硬域和软域的材料，提供优异的抗冲击性和热稳定性。共聚合的重要性不仅限于材料的机械性能。它在开发用于各种应用的功能性聚合物中也发挥着至关重要的作用，包括药物递送系统和生物传感器。通过仔细选择单体并控制共聚合条件，研究人员可以创造出对特定刺激（如pH变化或温度波动）作出反应的聚合物。这种工程响应性材料的能力为医学和生物技术领域开辟了新的可能性。总之，共聚合过程是聚合物化学中一种强大的工具，使得能够创造具有定制特性的先进材料。随着技术的不断发展，对创新材料的需求只会增加，因此对共聚合的理解变得比以往任何时候都更为重要。无论是为了提升日常产品的性能，还是为了开发健康和技术领域的尖端应用，共聚合的影响都是广泛而深远的。因此，学生和专业人士必须优先掌握这一概念，以有效地促进材料科学的未来进步。