adhesive force

简明释义

粘着力

英英释义

例句

1.In carpentry, understanding the adhesive force 粘附力 of wood adhesives can improve joint strength.

在木工中，理解木材粘合剂的粘附力 粘附力 可以提高接头的强度。

2.The adhesive force 粘附力 between the glue and the surface is crucial for a strong bond.

胶水与表面之间的粘附力 粘附力 对于形成强大的结合至关重要。

3.The adhesive force 粘附力 between the tape and the paper ensures that it stays in place.

胶带与纸张之间的粘附力 粘附力 确保它保持在原位。

4.High adhesive force 粘附力 is necessary for certain medical bandages to stay attached to the skin.

某些医疗绷带需要高粘附力 粘附力 以保持贴附于皮肤。

5.The adhesive force 粘附力 in this material allows it to resist peeling over time.

这种材料中的粘附力 粘附力 使其能够抵抗随时间的剥落。

作文

The concept of adhesive force is fundamental in both physics and everyday life. It refers to the attractive force between different substances, which allows them to stick together. For instance, when you apply glue to two pieces of paper, the adhesive force between the glue and the paper fibers creates a bond that holds them together. This phenomenon is not just limited to glue; it can be observed in various materials such as tape, stickers, and even biological substances like saliva. Understanding adhesive force can help us appreciate the complexities of material interactions and their applications in technology and nature.In the realm of physics, adhesive force plays a crucial role in many processes. For example, in the field of fluid dynamics, the interaction between liquids and solids can be explained through the principles of adhesion. Water molecules exhibit strong adhesive forces when they come into contact with glass surfaces, resulting in phenomena like capillary action. This is why a thin glass tube can draw water upwards against gravity – the adhesive force between the water and the glass allows it to rise. Such principles are not only fascinating but also essential for understanding various scientific concepts.Moreover, the importance of adhesive force extends to engineering and technology. In construction, the ability of materials to adhere to one another is vital for creating stable structures. For example, the adhesive force between concrete and steel reinforcements ensures that buildings can withstand external pressures and forces. Similarly, in the automotive industry, adhesives are used to bond different components, contributing to the overall strength and durability of vehicles. The development of advanced adhesives has revolutionized manufacturing processes, making them more efficient and reliable.In nature, adhesive force is evident in the way certain organisms interact with their environment. For instance, gecko lizards have specialized toe pads that exploit adhesive forces at the molecular level, allowing them to climb vertical surfaces effortlessly. This remarkable adaptation has inspired scientists to create synthetic materials that mimic these natural properties, leading to innovations in robotics and climbing gear. By studying how adhesive force works in nature, researchers can develop new technologies that enhance human capabilities.In conclusion, the concept of adhesive force is not only significant in scientific terms but also has practical implications in our daily lives. From the simple act of sticking two pieces of paper together to the complex interactions in engineering and biology, adhesive force is a powerful principle that governs many aspects of our world. By understanding this force, we can better appreciate the materials we use, the technologies we develop, and the natural phenomena we observe. As we continue to explore the intricacies of adhesive force, we unlock new possibilities for innovation and discovery.

“粘附力”这一概念在物理学和日常生活中都是基础性的。它指的是不同物质之间的吸引力，使它们能够粘在一起。例如，当你将胶水涂抹在两张纸上时，胶水与纸纤维之间的粘附力形成了一种连接，将它们粘合在一起。这种现象不仅限于胶水；在各种材料中都可以观察到，比如胶带、贴纸，甚至生物物质如唾液。理解粘附力可以帮助我们欣赏材料相互作用的复杂性及其在技术和自然中的应用。在物理领域，粘附力在许多过程中发挥着关键作用。例如，在流体动力学领域，液体与固体之间的相互作用可以通过粘附原理来解释。当水分子与玻璃表面接触时，表现出强烈的粘附力，导致毛细现象。这就是为什么一根细玻璃管能够使水逆重力上升——水与玻璃之间的粘附力使其能够上升。这些原理不仅迷人，而且对于理解各种科学概念至关重要。此外，粘附力的重要性延伸到工程和技术领域。在建筑中，材料之间的粘附能力对于构建稳定结构至关重要。例如，混凝土与钢筋之间的粘附力确保建筑物能够承受外部压力和力量。同样，在汽车工业中，粘合剂用于连接不同组件，增强车辆的整体强度和耐久性。先进粘合剂的发展彻底改变了制造过程，使其更加高效和可靠。在自然界中，粘附力在某些生物与环境的相互作用中显而易见。例如，壁虎具有特殊的脚垫，利用分子层面的粘附力，使它们能够轻松爬上垂直表面。这种非凡的适应性激励科学家创造模拟这些自然特性的合成材料，从而在机器人技术和攀岩装备方面取得创新。通过研究自然中粘附力的工作原理，研究人员可以开发出增强人类能力的新技术。总之，粘附力的概念不仅在科学上有重要意义，而且在我们的日常生活中也具有实际意义。从简单的将两张纸粘在一起的行为，到工程和生物学中的复杂相互作用，粘附力是支配我们世界许多方面的强大原则。通过理解这种力量，我们可以更好地欣赏我们使用的材料、我们开发的技术以及我们观察到的自然现象。随着我们继续探索粘附力的复杂性，我们为创新和发现打开了新的可能性。