adhesive capacity

简明释义

粘着能力

英英释义

例句

1.The new glue has an impressive adhesive capacity, allowing it to bond various materials securely.

这种新胶水具有令人印象深刻的粘附能力，能够牢固地粘合各种材料。

2.The adhesive capacity of the double-sided tape made it perfect for mounting pictures on the wall.

双面胶带的粘附能力使其非常适合用于将照片挂在墙上。

3.The scientist measured the adhesive capacity of the bio-adhesive in a lab experiment.

科学家在实验室实验中测量了生物胶的粘附能力。

4.In construction, the adhesive capacity of the sealant is crucial for ensuring waterproofing.

在建筑中，密封剂的粘附能力对于确保防水至关重要。

5.When selecting tape for packaging, consider its adhesive capacity to ensure it holds well during shipping.

在选择包装胶带时，请考虑其粘附能力以确保在运输过程中牢固粘贴。

作文

In the realm of materials science and engineering, understanding the properties of substances is crucial for innovation and application. One such property that plays a significant role in various industries is the concept of adhesive capacity. This term refers to the ability of a material to bond with another surface, allowing for effective adhesion. The adhesive capacity of a substance can significantly influence its performance in applications ranging from construction to electronics. For instance, in the construction industry, adhesives are used to bond different materials together, ensuring structural integrity and longevity. The strength of this bond often relies on the adhesive capacity of the adhesive material used. A higher adhesive capacity means a stronger bond, which is essential for safety and durability.Moreover, in the field of electronics, the adhesive capacity of materials can affect the performance of devices. Adhesives are commonly used to attach components to circuit boards or to encapsulate sensitive parts. If the adhesive does not have a sufficient adhesive capacity, it may lead to failures in the device, resulting in malfunction or reduced lifespan. Therefore, engineers must carefully select adhesives based on their adhesive capacity to ensure optimal performance.The adhesive capacity can vary widely among different materials and is influenced by several factors, including surface roughness, cleanliness, and the chemical nature of the surfaces involved. For example, a rough surface may enhance the adhesive capacity by providing more area for the adhesive to grip, while a smooth surface may reduce it. Additionally, surfaces that are contaminated with dust or grease can also diminish the adhesive capacity, leading to weaker bonds.Research and development in this area are ongoing, as scientists and engineers strive to create adhesives with improved adhesive capacity. Innovations such as nanotechnology have led to the development of new adhesive formulations that exhibit superior bonding characteristics. These advancements not only enhance the adhesive capacity but also expand the range of applications for adhesives in various industries.In conclusion, the adhesive capacity of materials is a fundamental property that impacts many aspects of product design and manufacturing. Whether in construction, electronics, or other fields, understanding and optimizing the adhesive capacity of materials can lead to better products and greater efficiency. As technology advances, the importance of this property will only continue to grow, making it a vital area of study for future innovations.

在材料科学和工程领域，理解物质的性质对于创新和应用至关重要。其中一个在各个行业中发挥重要作用的性质是粘附能力的概念。这个术语指的是一种材料与另一表面结合的能力，从而实现有效的粘附。材料的粘附能力可以显著影响其在建筑、电子等领域的应用表现。例如，在建筑行业，粘合剂用于将不同材料粘合在一起，确保结构的完整性和耐久性。这种结合的强度往往依赖于所用粘合材料的粘附能力。较高的粘附能力意味着更强的结合，这对于安全和耐用性至关重要。此外，在电子领域，材料的粘附能力可能会影响设备的性能。粘合剂通常用于将组件附加到电路板上或封装敏感部件。如果粘合剂的粘附能力不足，可能会导致设备故障，从而导致故障或缩短使用寿命。因此，工程师必须根据粘合剂的粘附能力仔细选择粘合剂，以确保最佳性能。材料的粘附能力因不同材料而异，并受多个因素的影响，包括表面粗糙度、清洁度和相关表面的化学性质。例如，粗糙的表面可能通过提供更多的面积供粘合剂抓握来增强粘附能力，而光滑的表面可能会降低它。此外，被灰尘或油脂污染的表面也可能降低粘附能力，导致结合变弱。在这一领域的研究和开发仍在进行中，因为科学家和工程师努力创造具有更高粘附能力的粘合剂。纳米技术等创新已导致新型粘合剂配方的开发，这些配方表现出优越的粘合特性。这些进步不仅增强了粘附能力，还扩展了粘合剂在各种行业中的应用范围。总之，材料的粘附能力是一种基本属性，影响着产品设计和制造的许多方面。无论是在建筑、电子还是其他领域，理解和优化材料的粘附能力都可以带来更好的产品和更高的效率。随着技术的进步，这一属性的重要性只会继续增长，使其成为未来创新的关键研究领域。