adhesive bond

简明释义

粘结结合

英英释义

例句

1.The strength of the adhesive bond is crucial in ensuring the durability of the product.

粘合力的强度对于确保产品的耐用性至关重要。

2.A well-formed adhesive bond can prevent leaks in plumbing systems.

良好的粘合力可以防止管道系统中的泄漏。

3.The adhesive bond in this medical device is designed to be biocompatible.

此医疗设备中的粘合力设计为生物相容性。

4.In woodworking, achieving a strong adhesive bond can significantly enhance the quality of the finished piece.

在木工中，达到强大的粘合力可以显著提高成品的质量。

5.The adhesive bond between the tiles must be strong enough to withstand moisture.

瓷砖之间的粘合力必须足够强，以承受湿气。

作文

In the world of materials science, understanding the concept of an adhesive bond is crucial for various applications, from construction to manufacturing and even in our daily lives. An adhesive bond refers to the connection formed between two surfaces when an adhesive material is applied. This bond can be physical or chemical, depending on the nature of the adhesive and the surfaces being joined. The strength and durability of an adhesive bond can significantly impact the performance of the final product. For instance, in the construction industry, the use of adhesives has revolutionized how materials are joined. Traditional methods like welding and mechanical fasteners have their limitations, while adhesives offer a versatile solution that can bond dissimilar materials. A strong adhesive bond can withstand environmental stresses, making it ideal for applications in areas such as aerospace, automotive, and even electronics. Moreover, the effectiveness of an adhesive bond is influenced by various factors, including surface preparation, adhesive type, and application technique. Proper surface cleaning and priming can enhance the bond strength, ensuring that the adhesive can effectively fill any gaps and create a robust connection. Different types of adhesives, such as epoxies, polyurethanes, and cyanoacrylates, each have unique properties that make them suitable for specific applications. In everyday life, we encounter adhesive bonds in numerous products, from simple household items like glue sticks to complex engineered components. For example, the soles of shoes are often bonded using adhesives that provide flexibility and durability, ensuring that they can withstand the rigors of daily wear. Similarly, furniture manufacturers rely on adhesive bonds to assemble pieces that require both strength and aesthetic appeal. The importance of adhesive bonds extends beyond mere functionality; they also contribute to sustainability efforts. By reducing the need for mechanical fasteners, which can create stress concentrations and potential failure points, adhesives can enhance the longevity of products. Furthermore, many modern adhesives are designed to be environmentally friendly, minimizing harmful emissions and promoting recycling. In conclusion, the adhesive bond is a fundamental aspect of material science that plays a pivotal role in numerous industries and everyday applications. Understanding how to create and maintain strong adhesive bonds can lead to improved product performance, increased sustainability, and innovative solutions to engineering challenges. As technology advances, the development of new adhesives and bonding techniques will continue to shape the future of manufacturing and construction, making the study of adhesive bonds more relevant than ever.

在材料科学的世界中，理解“粘合剂键”这一概念对于各种应用至关重要，从建筑到制造，甚至在我们的日常生活中。“粘合剂键”是指当施加粘合材料时，两个表面之间形成的连接。这种键可以是物理的或化学的，具体取决于粘合剂的性质和被连接的表面。粘合剂键的强度和耐久性可以显著影响最终产品的性能。例如，在建筑行业，粘合剂的使用彻底改变了材料的连接方式。传统的方法如焊接和机械紧固件有其局限性，而粘合剂提供了一种多功能的解决方案，可以连接不同的材料。强大的粘合剂键能够承受环境压力，使其在航空航天、汽车甚至电子等领域的应用中理想。此外，粘合剂键的有效性受到多种因素的影响，包括表面处理、粘合剂类型和应用技术。适当的表面清洁和底漆可以增强键的强度，确保粘合剂能够有效填充任何间隙并创建稳固的连接。不同类型的粘合剂，如环氧树脂、聚氨酯和氰基丙烯酸酯，各自具有独特的特性，使它们适合特定的应用。在日常生活中，我们在许多产品中遇到粘合剂键，从简单的家庭用品如胶棒到复杂的工程组件。例如，鞋子的鞋底通常使用粘合剂进行粘合，这些粘合剂提供灵活性和耐久性，确保它们能够承受日常磨损的考验。同样，家具制造商依赖粘合剂键来组装需要强度和美观的部件。粘合剂键的重要性不仅仅体现在功能上；它们还对可持续发展努力作出贡献。通过减少对机械紧固件的需求，这些紧固件可能会产生应力集中和潜在的故障点，粘合剂可以增强产品的耐用性。此外，许多现代粘合剂设计为环保，最大限度地减少有害排放并促进回收。总之，粘合剂键是材料科学的一个基本方面，在众多行业和日常应用中发挥着关键作用。理解如何创建和维护强大的粘合剂键可以提高产品性能、增加可持续性，并为工程挑战提供创新解决方案。随着技术的进步，新粘合剂和粘合技术的发展将继续塑造制造和建筑的未来，使粘合剂键的研究变得比以往任何时候都更为相关。