adhesive ability

简明释义

粘着能力

英英释义

例句

1.In construction, materials with high adhesive ability are essential for ensuring structural integrity.

在建筑中，具有高粘附能力的材料对于确保结构完整性至关重要。

2.The new glue has excellent adhesive ability, making it perfect for crafting projects.

这种新胶水具有出色的粘附能力，非常适合手工制作项目。

3.Researchers are testing a new polymer that promises improved adhesive ability for medical applications.

研究人员正在测试一种新聚合物，承诺在医疗应用中改善粘附能力。

4.The tape's adhesive ability allows it to stick firmly to various surfaces without peeling off.

这种胶带的粘附能力使其能够牢固地粘附在各种表面上而不脱落。

5.When choosing a sealant, consider its adhesive ability to ensure a long-lasting bond.

在选择密封剂时，考虑其粘附能力以确保持久的结合。

作文

In the world of materials science, the concept of adhesive ability is crucial for understanding how different substances can bond together. 粘附能力 refers to the capacity of a material to stick to another surface, which is a fundamental property in various applications ranging from everyday household items to advanced technological products. The effectiveness of adhesive ability can significantly influence the performance and durability of an object, making it a vital area of research and development.For instance, consider the role of adhesive ability in construction. Adhesives are extensively used in building materials such as tiles, wood, and metals. A strong adhesive bond ensures that these materials remain intact under various environmental conditions. If the adhesive ability of the glue used is inadequate, it could lead to structural failures, resulting in costly repairs and safety hazards. Therefore, understanding the factors that affect adhesive ability, such as surface roughness, cleanliness, and temperature, is essential for engineers and architects.Moreover, the importance of adhesive ability extends beyond construction. In the medical field, for example, adhesives are used in surgical procedures to close wounds or attach medical devices to the skin. The success of these applications relies heavily on the adhesive ability of the materials used. Medical adhesives must not only bond effectively but also be biocompatible to ensure they do not provoke an adverse reaction in the body. Researchers are continually exploring new materials with enhanced adhesive ability to improve patient outcomes and reduce recovery times.In the realm of technology, the adhesive ability of materials plays a significant role in electronics. As devices become smaller and more complex, the need for reliable adhesion between components increases. For instance, the assembly of smartphones and tablets often relies on adhesives to secure screens and internal parts. The adhesive ability of these materials must withstand heat, moisture, and mechanical stresses to ensure the longevity of the device. Innovations in this area can lead to thinner, lighter, and more efficient electronic products.Furthermore, the automotive industry also benefits from advancements in adhesive ability. Modern vehicles use adhesives for assembling body panels, securing glass, and even in interior components. The shift towards lighter materials to improve fuel efficiency has increased the reliance on adhesives, as traditional mechanical fasteners may add unnecessary weight. Understanding and improving the adhesive ability of automotive adhesives can lead to safer, more efficient vehicles.In conclusion, the concept of adhesive ability is a multifaceted topic that impacts various industries and applications. Its significance cannot be understated, as it directly affects the performance, safety, and longevity of products we use daily. As research continues to advance our understanding of adhesive ability, we can expect to see innovations that enhance the functionality and reliability of materials across multiple fields. Ultimately, mastering the principles behind adhesive ability will pave the way for future breakthroughs in technology, medicine, and construction, benefiting society as a whole.

在材料科学的世界中，粘附能力的概念对于理解不同物质如何结合在一起至关重要。粘附能力是指材料粘附到另一个表面的能力，这是日常家居用品到先进技术产品等各种应用中的基本属性。粘附能力的有效性可以显著影响物体的性能和耐用性，使其成为研究和开发的关键领域。例如，考虑一下粘附能力在建筑中的作用。粘合剂广泛用于瓷砖、木材和金属等建筑材料。强大的粘合剂连接确保这些材料在各种环境条件下保持完好。如果所用胶水的粘附能力不足，可能导致结构故障，造成昂贵的维修和安全隐患。因此，了解影响粘附能力的因素，如表面粗糙度、清洁度和温度，对工程师和建筑师至关重要。此外，粘附能力的重要性超越了建筑。在医疗领域，例如，粘合剂用于外科手术，以闭合伤口或将医疗设备附着到皮肤上。这些应用的成功在很大程度上依赖于所用材料的粘附能力。医用粘合剂不仅必须有效粘合，还必须具备生物相容性，以确保它们不会在体内引发不良反应。研究人员不断探索具有增强粘附能力的新材料，以改善患者的结果并缩短恢复时间。在技术领域，材料的粘附能力在电子产品中也发挥着重要作用。随着设备变得越来越小和复杂，对于组件之间可靠粘合的需求增加。例如，智能手机和平板电脑的组装通常依赖于粘合剂来固定屏幕和内部部件。这些材料的粘附能力必须经受住热、湿气和机械应力，以确保设备的耐用性。在这一领域的创新可以导致更薄、更轻、更高效的电子产品。此外，汽车工业也受益于粘附能力的进步。现代车辆使用粘合剂来组装车身面板、固定玻璃，甚至在内部组件中。为了提高燃油效率，向更轻材料的转变增加了对粘合剂的依赖，因为传统的机械紧固件可能会增加不必要的重量。了解和改善汽车粘合剂的粘附能力可以导致更安全、更高效的车辆。总之，粘附能力的概念是一个多方面的话题，影响着各个行业和应用。它的重要性不可低估，因为它直接影响我们日常使用产品的性能、安全性和耐用性。随着研究继续推进我们对粘附能力的理解，我们可以期待看到增强材料功能和可靠性的创新，跨多个领域造福社会。最终，掌握粘附能力背后的原理将为未来在技术、医学和建筑领域的突破铺平道路，惠及整个社会。