addition polymer

简明释义

加聚物;

英英释义

例句

1.The production of addition polymers 加聚物 often involves chain-growth polymerization.

生产加聚物 addition polymers通常涉及链增长聚合反应。

2.Polyethylene is a common type of addition polymer 加聚物 used in plastic bags.

聚乙烯是一种常见的加聚物 addition polymer，用于塑料袋。

3.The properties of an addition polymer 加聚物 depend on the monomers used in its synthesis.

一个加聚物 addition polymer的性质取决于其合成中使用的单体。

4.Many household items are made from addition polymers 加聚物, such as containers and toys.

许多家庭用品是由加聚物 addition polymers制成的，例如容器和玩具。

5.Styrene can be polymerized to form polystyrene, an important addition polymer 加聚物 in packaging.

苯乙烯可以聚合形成聚苯乙烯，这是一种在包装中重要的加聚物 addition polymer。

作文

Addition polymers are fascinating materials that play a crucial role in our daily lives. These polymers are formed through a process known as addition polymerization, where small molecules called monomers join together to create long chains. This process can occur under specific conditions, often involving heat and pressure, and it results in a variety of useful products. One of the most common examples of an addition polymer (加聚物) is polyethylene, which is widely used in plastic bags and containers. The versatility of addition polymers (加聚物) is evident in their applications across different industries, including packaging, automotive, and medical fields.The significance of addition polymers (加聚物) lies not only in their practical uses but also in their chemical properties. These polymers are typically characterized by their resistance to chemicals and moisture, making them ideal for various applications. For instance, polystyrene, another type of addition polymer (加聚物), is commonly used in insulation and disposable cutlery due to its lightweight and insulating properties. Moreover, the ability to manipulate the molecular structure of addition polymers (加聚物) allows scientists and engineers to tailor these materials for specific purposes, enhancing their performance and functionality.In recent years, there has been a growing interest in the environmental impact of addition polymers (加聚物). While they offer numerous benefits, their persistence in the environment raises concerns about pollution and waste management. Many addition polymers (加聚物) do not biodegrade easily, leading to accumulation in landfills and oceans. As a result, researchers are actively exploring ways to develop biodegradable alternatives or improve recycling methods to mitigate these issues.Furthermore, innovations in the field of polymer science have led to the creation of new types of addition polymers (加聚物) with enhanced properties. For example, some researchers are working on producing addition polymers (加聚物) that can conduct electricity, opening up possibilities for their use in electronic devices and renewable energy technologies. This intersection of polymer chemistry and technology showcases the potential for addition polymers (加聚物) to contribute to sustainable solutions in the future.In conclusion, addition polymers (加聚物) are integral to modern society, offering a wide range of applications and benefits. Their unique properties and versatility make them essential materials in various industries. However, it is also important to address the environmental challenges associated with these polymers. By continuing to innovate and find sustainable solutions, we can harness the advantages of addition polymers (加聚物) while minimizing their impact on the planet. As we move forward, the study of addition polymers (加聚物) will undoubtedly remain a vital area of research, with the potential to shape the future of materials science and engineering.

加聚物是令人着迷的材料，在我们的日常生活中发挥着至关重要的作用。这些聚合物是通过一种被称为加聚反应的过程形成的，其中小分子（称为单体）结合在一起形成长链。这个过程可以在特定条件下进行，通常涉及热和压力，并且会产生各种有用的产品。最常见的一个例子是聚乙烯，它广泛用于塑料袋和容器。加聚物的多功能性在其在不同产业中的应用中显而易见，包括包装、汽车和医疗领域。加聚物的重要性不仅在于它们的实际用途，还在于它们的化学性质。这些聚合物通常以其对化学物质和潮湿的抵抗力为特征，使它们成为各种应用的理想选择。例如，聚苯乙烯是另一种常见的加聚物，因其轻便和绝缘特性而广泛用于绝缘材料和一次性餐具。此外，操控加聚物的分子结构使科学家和工程师能够根据特定目的定制这些材料，从而增强其性能和功能。近年来，人们对加聚物的环境影响越来越感兴趣。虽然它们提供了许多好处，但它们在环境中的持久性引发了关于污染和废物管理的担忧。许多加聚物不易生物降解，导致在填埋场和海洋中的积累。因此，研究人员正在积极探索开发可生物降解的替代品或改善回收方法，以减轻这些问题。此外，聚合物科学领域的创新导致了新型加聚物的产生，这些聚合物具有增强的特性。例如，一些研究人员正在致力于生产能够导电的加聚物，这为它们在电子设备和可再生能源技术中的应用开辟了可能性。这种聚合物化学与技术的交叉展示了加聚物在未来为可持续解决方案做出贡献的潜力。总之，加聚物是现代社会不可或缺的一部分，提供了广泛的应用和好处。它们独特的性质和多功能性使它们在各个行业中成为基本材料。然而，解决与这些聚合物相关的环境挑战也同样重要。通过继续创新并寻找可持续的解决方案，我们可以利用加聚物的优势，同时将其对地球的影响降到最低。随着我们向前迈进，对加聚物的研究无疑将继续成为一个重要的研究领域，有潜力塑造材料科学和工程的未来。