adhesive power

简明释义

附着力

英英释义

例句

1.The adhesive power of this glue is strong enough to hold heavy objects together.

这种胶水的粘附力足以将重物牢牢粘在一起。

2.Scientists are researching materials with enhanced adhesive power for medical applications.

科学家正在研究具有增强粘附力的材料，以便于医疗应用。

3.The adhesive power of tape can vary depending on the surface it is applied to.

胶带的粘附力可能会因所粘贴的表面而异。

4.In carpentry, understanding the adhesive power of different wood glues can make a significant difference.

在木工中，了解不同木胶的粘附力可以带来显著的差异。

5.The adhesive power of this product is advertised to last for years without degradation.

该产品的粘附力宣传称可以持续多年而不降解。

作文

In the realm of science and technology, the term adhesive power refers to the ability of a substance to stick or bond to surfaces. This concept is not only crucial in industrial applications but also plays a significant role in our daily lives. Understanding adhesive power can enhance our appreciation for the materials we use and the innovations that stem from them. For instance, consider the various types of adhesives available today, ranging from simple glue sticks to advanced epoxy resins. Each type possesses unique adhesive power that makes it suitable for specific applications. In construction, high adhesive power adhesives are essential for ensuring that structures remain intact under various conditions. These adhesives must withstand environmental factors such as moisture, temperature fluctuations, and mechanical stress. The development of these strong adhesives has revolutionized the way we build and repair. For example, in the automotive industry, the adhesive power of certain bonding agents allows manufacturers to assemble vehicles more efficiently while reducing weight and improving fuel efficiency. Moreover, the medical field benefits greatly from the understanding of adhesive power. Surgical adhesives, which provide strong bonds in a sterile environment, are used to close wounds and incisions without the need for stitches. This innovation not only accelerates healing but also minimizes scarring, showcasing the practical applications of adhesive power in enhancing patient outcomes. On a more personal level, we encounter adhesive power in everyday products such as tape, stickers, and labels. The effectiveness of these items often depends on their adhesive power. For example, double-sided tape has a strong adhesive power that allows it to hold objects together without being visible, making it a favorite among crafters and DIY enthusiasts. Furthermore, the science of adhesive power extends into the realm of nanotechnology, where researchers are exploring how molecular interactions can enhance bonding capabilities at a microscopic level. By manipulating the properties of materials, scientists aim to create adhesives that are even stronger and more versatile than those currently available. This ongoing research highlights the importance of adhesive power in driving innovation and improving existing technologies. In conclusion, the concept of adhesive power encompasses a wide array of applications that impact our daily lives, industries, and advancements in science. From construction to medicine, understanding and harnessing adhesive power is essential for innovation and efficiency. As we continue to explore new materials and technologies, the significance of adhesive power will undoubtedly grow, leading to even more remarkable discoveries and improvements in the future.

在科学和技术领域，术语粘附力指的是物质粘附或结合到表面的能力。这个概念不仅在工业应用中至关重要，而且在我们的日常生活中也发挥着重要作用。理解粘附力可以增强我们对所用材料及其衍生创新的欣赏。例如，考虑今天可用的各种类型的粘合剂，从简单的胶棒到先进的环氧树脂。每种类型都具有独特的粘附力，使其适合特定的应用。在建筑中，高粘附力的粘合剂对于确保结构在各种条件下保持完整至关重要。这些粘合剂必须承受环境因素，如湿气、温度波动和机械应力。这些强粘合剂的发展彻底改变了我们的建造和修理方式。例如，在汽车工业中，某些粘合剂的粘附力使制造商能够更高效地组装车辆，同时减轻重量并提高燃油效率。此外，医疗领域极大地受益于对粘附力的理解。外科粘合剂在无菌环境中提供强大的结合，用于关闭伤口和切口，而无需缝合。这一创新不仅加速了愈合过程，还最小化了疤痕，展示了在改善患者结果方面粘附力的实际应用。在个人层面上，我们在日常产品中遇到粘附力，如胶带、贴纸和标签。这些物品的有效性通常取决于它们的粘附力。例如，双面胶带具有强大的粘附力，可以在不被看到的情况下将物体粘合在一起，使其成为手工艺者和DIY爱好者的最爱。此外，粘附力的科学还扩展到纳米技术领域，研究人员正在探索如何通过分子相互作用增强微观水平的粘合能力。通过操控材料的性质，科学家们旨在创造出比目前可用的粘合剂更强大、更通用的产品。这项持续的研究突显了对推动创新和改善现有技术的粘附力的重要性。总之，粘附力的概念涵盖了影响我们日常生活、工业和科学进步的广泛应用。从建筑到医学，理解和利用粘附力对于创新和效率至关重要。随着我们继续探索新材料和技术，粘附力的重要性无疑会增长，导致未来更加显著的发现和改进。