resist adhesion

简明释义

光刻胶附着

英英释义

例句

1.The new coating on the metal surface is designed to resist adhesion 抵抗附着 from rust and corrosion.

金属表面的新涂层旨在抵抗附着 抵抗锈蚀和腐蚀。

2.The non-stick pan is engineered to resist adhesion 抵抗附着 of food particles.

不粘锅的设计旨在抵抗附着 防止食物颗粒粘附。

3.In the lab, we need materials that can resist adhesion 抵抗附着 to prevent contamination.

在实验室里，我们需要能够抵抗附着 防止污染的材料。

4.Researchers are developing a new adhesive that can resist adhesion 抵抗附着 when exposed to extreme temperatures.

研究人员正在开发一种新型粘合剂，能够在极端温度下抵抗附着 保持性能。

5.The protective film on the glass is meant to resist adhesion 抵抗附着 of fingerprints.

玻璃上的保护膜旨在抵抗附着 防止指纹粘附。

作文

In the world of materials science and engineering, understanding the properties of different substances is crucial for innovation and application. One significant property that often comes into play is the ability of materials to resist adhesion. This term refers to the capacity of a surface to prevent other materials from sticking to it. The concept of resist adhesion is particularly important in various industries, including manufacturing, automotive, and even biomedical fields. For instance, in the manufacturing sector, surfaces that can resist adhesion are essential for ensuring that products can be easily separated from molds without damage. If a surface does not effectively resist adhesion, it can lead to defects in the final product, increased production costs, and wasted resources. This is why engineers often seek materials that have low surface energy, which naturally helps to resist adhesion and improve the efficiency of production processes.Moreover, in the automotive industry, the ability of paint to resist adhesion to contaminants such as dirt and grime is critical. Vehicles are often exposed to harsh environmental conditions, and a paint job that does not resist adhesion effectively can lead to deterioration over time. Therefore, manufacturers invest in advanced coatings that enhance the durability and longevity of vehicle exteriors by improving their ability to resist adhesion.In the biomedical field, resist adhesion plays a vital role in the development of medical devices. For instance, catheters and implants must be designed to minimize the adhesion of bacteria and other biological materials. If these devices do not resist adhesion effectively, they can become sites for infection and other complications. Researchers are continuously exploring new materials and surface treatments that enhance the ability to resist adhesion in order to promote better health outcomes for patients.Understanding the mechanisms behind resist adhesion can also lead to advancements in nanotechnology. By manipulating surface properties at the nanoscale, scientists can create materials with tailored adhesion characteristics. This can open up new possibilities for applications ranging from self-cleaning surfaces to improved drug delivery systems. In conclusion, the ability to resist adhesion is a fundamental property that has far-reaching implications across various industries. From manufacturing to biomedical applications, the importance of materials that can effectively resist adhesion cannot be overstated. As technology advances, the exploration of new materials and methods to enhance this property will continue to drive innovation and improve the performance of products in our everyday lives.

在材料科学和工程的世界中，理解不同物质的特性对于创新和应用至关重要。其中一个重要的特性是材料能够抵抗粘附。这个术语指的是表面防止其他材料粘附于其上的能力。抵抗粘附的概念在制造、汽车甚至生物医学等多个行业中都显得尤为重要。例如，在制造行业，能够抵抗粘附的表面对于确保产品能够轻松从模具中分离而不受损害是必不可少的。如果表面不能有效地抵抗粘附，可能会导致最终产品的缺陷、生产成本的增加以及资源的浪费。这就是为什么工程师们常常寻找具有低表面能的材料，这自然有助于抵抗粘附并提高生产过程的效率。此外，在汽车行业，涂料能够抵抗粘附污染物（如污垢和污垢）至关重要。车辆通常暴露在恶劣的环境条件下，无法有效抵抗粘附的涂装可能会随着时间的推移而恶化。因此，制造商投资于先进的涂层，以通过改善其抵抗粘附的能力来增强车辆外观的耐久性和使用寿命。在生物医学领域，抵抗粘附在医疗设备的开发中发挥着至关重要的作用。例如，导管和植入物必须设计成尽量减少细菌和其他生物材料的粘附。如果这些设备不能有效抵抗粘附，它们可能成为感染和其他并发症的发生地。研究人员不断探索新材料和表面处理，以增强抵抗粘附的能力，从而促进患者的健康结果。理解抵抗粘附背后的机制也可以推动纳米技术的发展。通过在纳米尺度上操纵表面特性，科学家可以创造出具有定制粘附特性的材料。这可以为从自清洁表面到改进药物递送系统等应用开辟新的可能性。总之，抵抗粘附的能力是一种基本特性，在各个行业中具有深远的影响。从制造业到生物医学应用，能够有效抵抗粘附的材料的重要性不容小觑。随着技术的进步，探索新材料和方法以增强这一特性将继续推动创新，并改善我们日常生活中产品的性能。