polymerization regulator

简明释义

聚合调节剂

英英释义

例句

1.The effectiveness of the polymerization regulator was tested under various temperatures and pressures.

在不同温度和压力下测试了聚合调节剂的有效性。

2.In this experiment, the polymerization regulator was crucial for achieving the desired molecular weight.

在这个实验中，聚合调节剂对实现所需的分子量至关重要。

3.The company patented their innovative polymerization regulator to improve polymer production efficiency.

该公司为其创新的聚合调节剂申请了专利，以提高聚合物生产效率。

4.Using a polymerization regulator can enhance the stability of the final product significantly.

使用聚合调节剂可以显著增强最终产品的稳定性。

5.The research team developed a new polymerization regulator to control the reaction speed in synthetic processes.

研究团队开发了一种新的聚合调节剂来控制合成过程中的反应速度。

作文

The world of chemistry is filled with intricate processes and fascinating phenomena. One of the most significant processes in this field is polymerization, which involves the combination of small molecules known as monomers to form larger, more complex structures called polymers. These polymers are essential in a wide range of applications, from everyday materials like plastics to advanced biomedical devices. However, controlling the polymerization process is crucial for achieving desired properties in the final product. This is where the role of a polymerization regulator (聚合调节剂) comes into play. A polymerization regulator is a substance that influences the rate and outcome of the polymerization reaction, allowing chemists to tailor the characteristics of the resulting polymers. By adjusting factors such as molecular weight, viscosity, and thermal stability, these regulators enable the development of materials that meet specific performance criteria. For instance, in the production of polyethylene, a common plastic used in packaging, a polymerization regulator can help control the branching of polymer chains, which directly affects the material's strength and flexibility. The use of polymerization regulators is not only limited to industrial applications; they also play a vital role in research and development. In laboratories, scientists often experiment with different regulators to understand their effects on polymerization mechanisms. This research can lead to innovations in material science, such as the creation of biodegradable plastics or smart materials that respond to environmental stimuli. Furthermore, the importance of polymerization regulators extends beyond traditional polymer chemistry. In recent years, there has been a growing interest in bio-based polymers and sustainable practices. Researchers are exploring natural substances as potential polymerization regulators, which could reduce the environmental impact of polymer production. For example, certain plant extracts have shown promise in regulating polymerization while being eco-friendly. In summary, the concept of a polymerization regulator (聚合调节剂) is fundamental to both the practical and theoretical aspects of polymer chemistry. By understanding and utilizing these regulators, scientists and engineers can manipulate polymerization processes to create materials with tailored properties, paving the way for advancements in various fields. As we continue to explore the potential of polymers, the role of polymerization regulators will undoubtedly remain pivotal in shaping the future of material science.

化学世界充满了复杂的过程和迷人的现象。其中一个最重要的过程是聚合，它涉及小分子（称为单体）的结合，形成更大、更复杂的结构（称为聚合物）。这些聚合物在从日常材料（如塑料）到先进的生物医学设备等广泛应用中都是必不可少的。然而，控制聚合过程对于实现最终产品的期望特性至关重要。这就是聚合调节剂的作用所在。聚合调节剂是一种影响聚合反应速率和结果的物质，使化学家能够定制所产生聚合物的特性。通过调整分子量、粘度和热稳定性等因素，这些调节剂使得开发符合特定性能标准的材料成为可能。例如，在生产聚乙烯（用于包装的常见塑料）时，聚合调节剂可以帮助控制聚合物链的分支，这直接影响材料的强度和柔韧性。聚合调节剂的使用不仅限于工业应用；它们在研究和开发中也发挥着重要作用。在实验室中，科学家们经常试验不同的调节剂，以了解它们对聚合机制的影响。这项研究可以导致材料科学的创新，例如创造可生物降解的塑料或响应环境刺激的智能材料。此外，聚合调节剂的重要性超出了传统聚合物化学。近年来，对生物基聚合物和可持续实践的兴趣日益增长。研究人员正在探索天然物质作为潜在的聚合调节剂，这可能减少聚合物生产对环境的影响。例如，某些植物提取物在调节聚合反应方面显示出潜力，同时又环保。总之，聚合调节剂（聚合调节剂）的概念是聚合物化学的实际和理论方面的基础。通过理解和利用这些调节剂，科学家和工程师可以操纵聚合过程，创造具有定制特性的材料，为各个领域的进步铺平道路。随着我们继续探索聚合物的潜力，聚合调节剂的作用无疑将在塑造材料科学的未来中保持关键地位。