adhesive ability

简明释义

粘附能力

英英释义

例句

1.A product's adhesive ability can greatly affect its performance in packaging.

产品的粘附能力会极大影响其在包装中的表现。

2.In construction, materials with high adhesive ability are essential for durability.

在建筑中，具有高粘附能力的材料对耐用性至关重要。

3.The new glue has excellent adhesive ability.

这种新胶水具有优异的粘附能力。

4.The research focused on improving the adhesive ability of bio-based adhesives.

研究集中在提高生物基胶水的粘附能力上。

5.The tape's adhesive ability allows it to stick to various surfaces.

这款胶带的粘附能力使其能够粘附于各种表面。

作文

In today's fast-paced world, the concept of adhesive ability (粘附能力) is more relevant than ever. This term refers to the capacity of materials to stick to surfaces or bind together, which is crucial in various fields such as construction, manufacturing, and even everyday life. Understanding adhesive ability (粘附能力) can help us appreciate the importance of materials and their interactions in our environment.Firstly, in the construction industry, the adhesive ability (粘附能力) of different materials plays a vital role in ensuring the stability and durability of buildings. For example, the use of adhesives in bonding tiles to floors or walls is essential. A strong adhesive ensures that tiles remain intact, preventing accidents and maintaining aesthetic appeal. Moreover, modern construction often employs advanced adhesives that provide superior adhesive ability (粘附能力), allowing for lighter structures without compromising strength.In manufacturing, the adhesive ability (粘附能力) of materials is equally significant. For instance, in the automotive industry, adhesives are used to bond various components together, such as windshields and body panels. The reliance on adhesives rather than traditional mechanical fasteners can reduce weight and improve fuel efficiency. Furthermore, understanding the adhesive ability (粘附能力) of different substances allows manufacturers to choose the right materials for specific applications, ultimately enhancing product quality and performance.Beyond industrial applications, the concept of adhesive ability (粘附能力) is also present in our daily lives. Consider the various types of tapes we use at home, from duct tape to double-sided tape. Each type exhibits a different level of adhesive ability (粘附能力), making them suitable for specific tasks. For instance, duct tape is known for its strong adhesion, making it ideal for repairs, while double-sided tape is perfect for mounting pictures without visible fasteners. By understanding the adhesive ability (粘附能力) of these products, consumers can make informed choices about which tape to use for their projects.Moreover, the study of adhesive ability (粘附能力) extends into the realm of science and technology. Researchers are continuously exploring new adhesive materials that can perform under extreme conditions, such as high temperatures or underwater environments. Innovations in this field could lead to breakthroughs in medical devices, aerospace engineering, and even space exploration. For example, developing adhesives with enhanced adhesive ability (粘附能力) could enable the creation of stronger and more reliable spacecraft components.In conclusion, the term adhesive ability (粘附能力) encompasses a wide range of applications and implications in our lives. From construction and manufacturing to everyday household items, the ability of materials to adhere to one another is fundamental to functionality and safety. As we continue to advance technologically, the importance of understanding and improving adhesive ability (粘附能力) will only grow, paving the way for innovative solutions across various industries. Therefore, it is essential for individuals, especially those in scientific and engineering fields, to grasp the significance of adhesive ability (粘附能力) and its impact on our world.

在当今快节奏的世界中，概念粘附能力（adhesive ability）变得比以往任何时候都更为相关。这个术语指的是材料粘附于表面或相互结合的能力，这在建筑、制造甚至日常生活等多个领域都是至关重要的。理解粘附能力（adhesive ability）可以帮助我们欣赏材料及其在环境中相互作用的重要性。首先，在建筑行业中，不同材料的粘附能力（adhesive ability）在确保建筑物的稳定性和耐久性方面发挥着至关重要的作用。例如，在将瓷砖粘贴到地板或墙壁上时，使用强力粘合剂是必不可少的。强大的粘合剂确保瓷砖保持完好，防止意外发生，并保持美观。此外，现代建筑通常采用先进的粘合剂，这些粘合剂提供优越的粘附能力（adhesive ability），允许结构更轻而不妥协强度。在制造业中，材料的粘附能力（adhesive ability）同样重要。例如，在汽车工业中，粘合剂用于将各种组件粘合在一起，如挡风玻璃和车身面板。依靠粘合剂而不是传统的机械紧固件可以减轻重量，提高燃油效率。此外，理解不同物质的粘附能力（adhesive ability）使制造商能够选择适合特定应用的正确材料，从而最终提高产品质量和性能。除了工业应用外，粘附能力（adhesive ability）的概念也出现在我们的日常生活中。考虑一下我们在家中使用的各种胶带，从胶布到双面胶带。每种类型都表现出不同程度的粘附能力（adhesive ability），使它们适合特定任务。例如，胶布以其强大的粘附性而闻名，适合用于修理，而双面胶带则非常适合在没有可见紧固件的情况下挂图画。通过理解这些产品的粘附能力（adhesive ability），消费者可以对用于项目的胶带做出明智的选择。此外，粘附能力（adhesive ability）的研究扩展到科学和技术领域。研究人员不断探索可以在极端条件下（如高温或水下环境）表现良好的新型粘合材料。在这一领域的创新可能会导致医疗设备、航空航天工程甚至太空探索的突破。例如，开发具有增强粘附能力（adhesive ability）的粘合剂可能使得更强大、更可靠的航天器组件的创建成为可能。总之，术语粘附能力（adhesive ability）涵盖了我们生活中广泛的应用和含义。从建筑和制造到日常家庭用品，材料相互粘附的能力是功能性和安全性的基础。随着我们技术的不断进步，理解和改善粘附能力（adhesive ability）的重要性只会增加，为各个行业的创新解决方案铺平道路。因此，特别是那些在科学和工程领域的人，理解粘附能力（adhesive ability）及其对我们世界的影响至关重要。