polymerization degree

简明释义

聚合度

英英释义

例句

1.The polymerization degree is crucial for determining the viscosity of the solution.

对于确定溶液的粘度，聚合度是至关重要的。

2.In this experiment, we will measure the polymerization degree of several different polymers.

在这个实验中，我们将测量几种不同聚合物的聚合度。

3.Researchers found that increasing the polymerization degree can enhance the thermal stability of the material.

研究人员发现，提高聚合度可以增强材料的热稳定性。

4.The polymerization degree of this plastic affects its strength and flexibility.

这种塑料的聚合度影响其强度和柔韧性。

5.A higher polymerization degree often leads to improved mechanical properties.

较高的聚合度通常会导致改善的机械性能。

作文

The study of polymers is a fascinating field that has significant implications in various industries, from medicine to engineering. One of the key concepts in polymer science is the polymerization degree, which refers to the number of repeating units in a polymer chain. Understanding the polymerization degree is crucial for predicting the properties and behavior of polymers under different conditions. For instance, a higher polymerization degree generally indicates a longer chain length, which can lead to increased strength and stability of the material. Conversely, a lower polymerization degree might result in a more flexible and less durable substance.In practical applications, the polymerization degree can significantly affect the processing techniques used in manufacturing. For example, in the production of plastics, the polymerization degree influences the melting temperature and viscosity of the material. Manufacturers must carefully control the polymerization degree to achieve the desired characteristics in the final product. This control is often achieved through various methods, such as adjusting the reaction time or temperature during the polymerization process.Moreover, the polymerization degree plays a vital role in the development of new materials. Researchers are constantly exploring ways to manipulate the polymerization degree to create innovative polymers with tailored properties for specific applications. For example, in the field of biomedical engineering, polymers with a precise polymerization degree can be designed to interact effectively with biological tissues, enhancing drug delivery systems or creating biocompatible implants.Additionally, the polymerization degree can influence the environmental impact of polymer materials. Polymers with a high polymerization degree tend to be more resistant to degradation, which can lead to accumulation in the environment. Therefore, understanding and controlling the polymerization degree is essential not only for material performance but also for sustainability efforts in the industry.In conclusion, the polymerization degree is a fundamental concept in polymer science that affects various aspects of polymer behavior, processing, and application. By mastering the principles surrounding the polymerization degree, scientists and engineers can develop better materials that meet the demands of modern technology while also considering environmental factors. As research continues to advance, the importance of the polymerization degree will undoubtedly grow, leading to new discoveries and innovations in the world of polymers.

聚合物的研究是一个迷人的领域，对各个行业都有重要影响，从医学到工程。其中一个关键概念是聚合度，它指的是聚合物链中重复单元的数量。理解聚合度对于预测聚合物在不同条件下的性质和行为至关重要。例如，更高的聚合度通常表示链长更长，这可能导致材料的强度和稳定性增加。相反，较低的聚合度可能导致物质更灵活且不那么耐用。在实际应用中，聚合度可以显著影响制造过程中使用的加工技术。例如，在塑料生产中，聚合度会影响材料的熔化温度和粘度。制造商必须仔细控制聚合度以实现最终产品所需的特性。这种控制通常通过各种方法实现，例如调整聚合过程中的反应时间或温度。此外，聚合度在新材料的发展中也扮演着重要角色。研究人员不断探索操纵聚合度的方法，以创造具有特定应用需求的创新聚合物。例如，在生物医学工程领域，可以设计出具有精确聚合度的聚合物，以有效与生物组织相互作用，增强药物输送系统或创建生物相容性植入物。此外，聚合度还会影响聚合物材料的环境影响。高聚合度的聚合物往往更耐降解，这可能导致在环境中的积累。因此，理解和控制聚合度对于材料性能和行业的可持续性努力都是必不可少的。总之，聚合度是聚合物科学中的一个基本概念，影响聚合物行为、加工和应用的各个方面。通过掌握与聚合度相关的原理，科学家和工程师可以开发出更好的材料，以满足现代技术的需求，同时考虑环境因素。随着研究的不断进展，聚合度的重要性无疑会增加，导致聚合物领域的新发现和创新。