wetted surface

简明释义

浸湿面

英英释义

例句

1.The paint adheres better to the wetted surface due to improved bonding.

由于增强了粘合，油漆更容易附着在湿润表面。

2.Water can reduce friction on a wetted surface, making it slippery.

水可以减少湿润表面的摩擦，使其变得滑腻。

3.Before applying the adhesive, make sure the wetted surface is clean.

在涂抹粘合剂之前，请确保湿润表面干净。

4.When testing the material, ensure that the wetted surface is uniform.

在测试材料时，确保湿润表面均匀。

5.The laboratory experiment required a wetted surface for accurate measurements.

实验室实验需要一个湿润表面以获得准确的测量结果。

作文

The concept of a wetted surface is crucial in various fields, including engineering, fluid mechanics, and environmental science. A wetted surface refers to any surface that is in contact with a liquid, such as water or oil. Understanding how liquids interact with solid surfaces can significantly influence the design and efficiency of numerous applications, from industrial processes to everyday products. In engineering, the behavior of fluids on wetted surfaces is essential for predicting how materials will perform in real-world conditions. For example, when designing a water drainage system, engineers must consider the wetted surface area to ensure that water flows efficiently without causing blockages or flooding. The angle of the surface, the material properties, and the viscosity of the fluid all play vital roles in determining how effectively a liquid can move across a wetted surface. Moreover, in the realm of environmental science, the concept of wetted surfaces is significant when studying soil erosion and water retention. When rainwater falls on a field, the wetted surface of the soil affects how much water is absorbed versus how much runs off into nearby streams and rivers. A larger wetted surface area can lead to increased absorption, which is beneficial for agriculture but may also contribute to soil erosion if the ground is saturated. In everyday life, we encounter wetted surfaces regularly, often without realizing it. For instance, when washing dishes, the plates and utensils become wetted surfaces that allow soap and water to interact effectively, ensuring cleanliness. The effectiveness of cleaning products is often enhanced by their ability to spread over wetted surfaces, maximizing contact with dirt and grease.Another interesting application of wetted surfaces is in the field of microfluidics, where tiny amounts of fluids are manipulated on a microscopic scale. In this context, understanding how fluids behave on wetted surfaces can lead to innovations in medical diagnostics and drug delivery systems. By controlling the wetted surface properties, researchers can design devices that improve the efficiency of chemical reactions and biological assays.Furthermore, the study of wetted surfaces extends to the development of advanced materials. Superhydrophobic surfaces, for example, are engineered to minimize the area that comes into contact with water, thereby reducing the wetted surface and preventing the accumulation of dirt and grime. These surfaces have practical applications in self-cleaning coatings and anti-corrosion technologies.In conclusion, the term wetted surface encompasses a wide range of applications and implications across different fields. From engineering to environmental science and everyday life, understanding the dynamics of wetted surfaces is essential for improving performance, enhancing efficiency, and fostering innovation. As we continue to explore the interactions between liquids and solids, the significance of wetted surfaces will undoubtedly remain a pivotal aspect of scientific research and practical applications.

“wetted surface”这个概念在工程、流体力学和环境科学等多个领域中至关重要。“wetted surface”指的是与液体（如水或油）接触的任何表面。理解液体如何与固体表面相互作用，可以显著影响众多应用的设计和效率，从工业过程到日常产品。在工程中，流体在“wetted surface”上的行为对于预测材料在现实条件下的表现至关重要。例如，在设计排水系统时，工程师必须考虑“wetted surface”面积，以确保水流动高效，而不会造成堵塞或洪水。表面的角度、材料特性和流体的粘度在决定液体如何有效地在“wetted surface”上移动方面都起着重要作用。此外，在环境科学领域，“wetted surfaces”的概念在研究土壤侵蚀和水分保持时也很重要。当雨水落在田野上时，土壤的“wetted surface”会影响吸收多少水分以及多少水分流入附近的溪流和河流。较大的“wetted surface”面积可以导致增加的吸收，这对农业有利，但如果土壤饱和，也可能导致土壤侵蚀。在日常生活中，我们经常遇到“wetted surfaces”，通常没有意识到。例如，在洗碗时，盘子和餐具变成了“wetted surfaces”，使肥皂和水能够有效地相互作用，确保清洁。清洁产品的有效性通常通过其在“wetted surfaces”上扩散的能力来增强，从而最大化与污垢和油脂的接触。“wetted surfaces”的另一个有趣应用是在微流体学领域，其中微小量的液体在微观尺度上被操控。在这种情况下，理解流体在“wetted surfaces”上的行为可以导致医学诊断和药物输送系统的创新。通过控制“wetted surface”的特性，研究人员可以设计出提高化学反应和生物分析效率的设备。此外，“wetted surfaces”的研究扩展到先进材料的开发。例如，超疏水表面被设计为最小化与水接触的面积，从而减少“wetted surface”，防止污垢和污垢的积累。这些表面在自清洁涂层和防腐技术中具有实际应用。总之，术语“wetted surface”涵盖了不同领域广泛的应用和影响。从工程到环境科学，再到日常生活，理解“wetted surfaces”的动态对于提高性能、增强效率和促进创新至关重要。随着我们继续探索液体与固体之间的相互作用，“wetted surfaces”的重要性无疑将继续成为科学研究和实际应用的关键方面。