terpolymers
简明释义
英[ˌtɜːrˈpɒlɪmɚz]美[ˌtɜrˈpɑlɪmɚz]
[有化]三元共聚物(terpolymer 的名词复数)
英英释义
单词用法
热塑性三元聚合物 | |
嵌段三元聚合物 | |
功能性三元聚合物 | |
与三元聚合物的聚合物混合物 | |
三元聚合物的合成 | |
三元聚合物的性质 | |
三元聚合物的应用 | |
三元聚合物的表征 | |
三元聚合物的性能 | |
三元聚合物的制造 |
同义词
反义词
| 均聚物 | 均聚物是由单一类型的单体制成的。 | ||
| 共聚物 | 共聚物由两种不同类型的单体组成。 |
例句
1.The zwitterion terpolymers of the invention are made from the terpolymers by internal transfer of the proton of the carboxylic acid to the amino group of the acrylamide or acrylate monomer.
发明的两性离子共聚物是由从对羧酸质子内部转移到丙烯酰胺或丙烯酸单体氨基酸组的三元共聚物。
2.Based on the synthesis of different terpolymers with acridine group, the absorption and fluorescence spectra of these compounds in solution and membrane were recorded respectively.
在合成了几种带不同组成比吖啶基三元共聚物的基础上,对其溶液和薄膜的吸收与荧光发光光谱进行了表征。
3.Ordered microstructures assembled from the mixture of the ABC 3-miktoarm star terpolymers and the linear homopolymers have been investigated by using dynamic density functional theory.
我们使用了动态密度泛函理论对三杂臂星型共聚物以及线性均聚物的共混体系进行了研究。
4.The results showed that the terpolymers possessed good emulsifying property and water absorbency , and behaved as thermoplastic elastomers according to their composition.
结果表明,合成的共聚物具有良好的乳化性及吸水性,并在一定组成下呈现热塑性弹性体的性质。
5.The experimental results show that ammonium persulfate-sodium hydrogen sulphite redox initiation system is the most appropriate for the preparation of DMC/AM/AA terpolymers.
结果表明,过硫酸铵-亚硫酸氢钠引发体系最适宜于DMC/AM/AA三元共聚物的制备。
6.The terpolymers of the invention: (a) a vinyl lactam, such as vinyl pyrrolidone or vinyl caprolactam;
发明的三元:(一)一乙烯基酰胺,如聚乙烯吡咯烷酮或乙烯基己内酰胺;
7.The zwitterion terpolymers of the invention are made from the terpolymers by internal transfer of the proton of the carboxylic acid to the amino group of the acrylamide or acrylate monomer.
发明的两性离子共聚物是由从对羧酸质子内部转移到丙烯酰胺或丙烯酸单体氨基酸组的三元共聚物。
8.The automotive industry is increasingly utilizing terpolymers (三元聚合物) for lightweight and strong materials.
汽车工业越来越多地利用terpolymers(三元聚合物)来制造轻量且强度高的材料。
9.The new line of coatings is made from advanced terpolymers (三元聚合物) that provide exceptional durability.
这一新型涂料系列由先进的terpolymers(三元聚合物)制成,提供了卓越的耐用性。
10.Researchers are exploring the use of terpolymers (三元聚合物) in biomedical applications due to their biocompatibility.
研究人员正在探索在生物医学应用中使用terpolymers(三元聚合物),因为它们具有生物相容性。
11.The formulation of paints often includes terpolymers (三元聚合物) to improve color retention and gloss.
油漆的配方中常常包括terpolymers(三元聚合物),以改善颜色保持和光泽。
12.In the production of adhesives, terpolymers (三元聚合物) can enhance adhesion properties significantly.
在胶粘剂的生产中,terpolymers(三元聚合物)可以显著增强粘附性能。
作文
In the world of materials science, the term terpolymers refers to a specific type of polymer that is formed by the polymerization of three different monomers. These unique structures allow for a combination of properties that can be tailored to meet specific needs in various applications. Understanding terpolymers is crucial for researchers and engineers working in fields such as plastics, coatings, and elastomers. The process of creating terpolymers involves the careful selection of monomers that will react together to form a stable and functional material. By varying the ratios of the three monomers, scientists can design polymers with desired characteristics, such as increased flexibility, enhanced strength, or improved chemical resistance. This versatility makes terpolymers highly valuable in industrial applications. One of the significant advantages of terpolymers is their ability to exhibit properties that are not present in traditional copolymers, which consist of only two types of monomers. For instance, a terpolymer might possess a combination of toughness and elasticity that would be difficult to achieve with a binary system. This capability opens up new possibilities for product development, allowing for innovative solutions that meet the demands of modern technology. In the automotive industry, terpolymers are increasingly used in the production of tires and other components due to their superior performance under stress. The incorporation of different monomers can enhance the grip and durability of tires, leading to safer vehicles. Similarly, in the field of electronics, terpolymers are utilized in the manufacturing of flexible circuits and insulating materials, where their unique properties contribute to the overall efficiency and reliability of electronic devices. Moreover, terpolymers play a vital role in the development of environmentally friendly materials. Researchers are exploring bio-based monomers to create sustainable terpolymers that can replace traditional petroleum-based polymers. This shift not only reduces the environmental impact of plastic production but also promotes the use of renewable resources. Despite their many benefits, the production and processing of terpolymers can present challenges. The complexity of their structure often requires advanced techniques for synthesis and characterization. Additionally, the cost of raw materials and the need for specialized equipment can limit their widespread adoption in certain industries. In conclusion, terpolymers represent an exciting area of research and application within materials science. Their unique properties and versatility make them suitable for a wide range of uses, from automotive to electronics and beyond. As technology continues to evolve, the potential for terpolymers will likely expand, paving the way for innovative materials that can meet the challenges of the future. Understanding and mastering the science behind terpolymers will be essential for those looking to push the boundaries of what is possible in material design and application.
在材料科学的世界中,术语terpolymers指的是由三种不同单体聚合而成的一种特定类型的聚合物。这些独特的结构允许将多种特性结合在一起,以满足各种应用中的特定需求。理解terpolymers对从事塑料、涂料和弹性体等领域的研究人员和工程师至关重要。创造terpolymers的过程涉及对将反应在一起形成稳定且功能性材料的单体进行仔细选择。通过改变三种单体的比例,科学家可以设计出具有所需特性的聚合物,例如增加的柔韧性、增强的强度或改善的化学耐受性。这种多样性使得terpolymers在工业应用中极具价值。terpolymers的一个显著优势是它们能够表现出传统共聚物(仅由两种单体组成)所不具备的特性。例如,一个terpolymer可能具有韧性和弹性的结合,而这在二元体系中是难以实现的。这种能力为产品开发开辟了新的可能性,使得满足现代技术需求的创新解决方案成为可能。在汽车工业中,由于其在压力下的优越性能,terpolymers越来越多地用于轮胎和其他组件的生产。不同单体的结合可以增强轮胎的抓地力和耐用性,从而提高车辆的安全性。同样,在电子领域,terpolymers被用于制造柔性电路和绝缘材料,其独特的特性有助于电子设备的整体效率和可靠性。此外,terpolymers在环保材料的开发中发挥着至关重要的作用。研究人员正在探索生物基单体,以创建可持续的terpolymers,以替代传统的石油基聚合物。这一转变不仅减少了塑料生产对环境的影响,还促进了可再生资源的使用。尽管有许多好处,但terpolymers的生产和加工可能会带来挑战。其结构的复杂性通常需要先进的合成和表征技术。此外,原材料的成本以及对专用设备的需求可能限制其在某些行业的广泛采用。总之,terpolymers代表了材料科学中一个令人兴奋的研究和应用领域。它们独特的性质和多功能性使其适用于从汽车到电子产品等广泛用途。随着技术的不断发展,terpolymers的潜力可能会进一步扩大,为应对未来挑战的创新材料铺平道路。理解和掌握terpolymers背后的科学将对那些希望推动材料设计和应用的可能性边界的人至关重要。
