adhesion coefficient

简明释义

附着系数

英英释义

例句

1.A higher adhesion coefficient 粘附系数 indicates better grip of the tire on the road.

更高的粘附系数 粘附系数 表示轮胎在路面上的抓地力更好。

2.In the study of biomaterials, the adhesion coefficient 粘附系数 between cells and surfaces is crucial for tissue engineering.

在生物材料研究中，细胞与表面之间的粘附系数 粘附系数 对于组织工程至关重要。

3.The adhesion coefficient 粘附系数 can be affected by surface roughness and material properties.

表面粗糙度和材料性质会影响粘附系数 粘附系数。

4.Researchers measured the adhesion coefficient 粘附系数 of different adhesives to find the most effective one.

研究人员测量了不同粘合剂的粘附系数 粘附系数 以找到最有效的粘合剂。

5.The adhesion coefficient 粘附系数 of the paint to the metal surface determines its durability.

油漆与金属表面的粘附系数 粘附系数 决定了其耐用性。

作文

The concept of the adhesion coefficient is crucial in various fields such as physics, engineering, and materials science. It quantifies the ability of two surfaces to stick together when they come into contact. Understanding the adhesion coefficient can help in designing better adhesives, coatings, and even in the manufacturing of composite materials. In essence, the adhesion coefficient reflects the strength of the intermolecular forces at play between the surfaces involved. When we think about everyday applications, consider how glue works. The effectiveness of glue is often determined by its adhesion coefficient. A high adhesion coefficient means that the glue can create a strong bond between two surfaces, while a low adhesion coefficient indicates that the bond may not hold under stress. This principle is not only applicable to glue but also to paints, varnishes, and other surface treatments that rely on adhesion for their effectiveness. In industrial applications, the adhesion coefficient plays a significant role in ensuring product reliability and performance. For example, in the automotive industry, the adhesion coefficient between paint and metal surfaces must be carefully controlled to prevent peeling or chipping. Similarly, in electronics, the adhesion coefficient of solder joints can determine the longevity and functionality of electronic components. Researchers continuously seek to improve the adhesion coefficient of materials through various methods. Surface treatments, such as plasma treatment or chemical coatings, can enhance the adhesion coefficient by altering the surface properties of materials. These advancements are vital for industries that require high-performance materials, such as aerospace and medical devices. Moreover, the adhesion coefficient is not a constant value; it can change with environmental conditions like temperature and humidity. Understanding how these factors influence the adhesion coefficient is essential for applications that operate under varying conditions. For instance, outdoor adhesives must maintain a high adhesion coefficient in both hot and cold weather, which presents a challenge for manufacturers. In conclusion, the adhesion coefficient is a fundamental parameter that impacts a wide range of applications from everyday products to advanced technologies. By studying and manipulating the adhesion coefficient, scientists and engineers can develop better materials and solutions that meet the demands of modern society. Whether it's ensuring that a simple piece of paper sticks to a wall or that critical components in an airplane remain securely bonded, the importance of the adhesion coefficient cannot be overstated.

“附着系数”这一概念在物理学、工程学和材料科学等多个领域中至关重要。它量化了当两个表面接触时，它们粘附在一起的能力。理解“附着系数”有助于设计更好的粘合剂、涂层，甚至在复合材料的制造中。实质上，“附着系数”反映了参与表面之间的分子间力的强度。当我们考虑日常应用时，可以想象胶水的工作原理。胶水的有效性通常取决于其“附着系数”。高“附着系数”意味着胶水可以在两个表面之间形成强大的结合，而低“附着系数”则表示在压力下结合可能无法保持。这一原理不仅适用于胶水，还适用于依赖附着力的油漆、清漆和其他表面处理。在工业应用中，“附着系数”在确保产品可靠性和性能方面发挥着重要作用。例如，在汽车工业中，涂料与金属表面之间的“附着系数”必须严格控制，以防止剥落或剥落。同样，在电子产品中，焊点的“附着系数”可以决定电子元件的耐用性和功能性。研究人员不断寻求通过各种方法提高材料的“附着系数”。表面处理，如等离子体处理或化学涂层，可以通过改变材料的表面特性来增强“附着系数”。这些进展对于需要高性能材料的行业（如航空航天和医疗设备）至关重要。此外，“附着系数”并不是一个常数值；它可能会随着温度和湿度等环境条件而变化。了解这些因素如何影响“附着系数”对于在变化条件下运行的应用至关重要。例如，户外粘合剂必须在炎热和寒冷的天气中保持高“附着系数”，这给制造商带来了挑战。总之，“附着系数”是影响从日常产品到先进技术的一系列应用的基本参数。通过研究和操控“附着系数”，科学家和工程师可以开发出更好的材料和解决方案，以满足现代社会的需求。无论是确保一张简单的纸张粘在墙上，还是确保飞机中的关键组件安全地粘合在一起，“附着系数”的重要性都不容小觑。