adhesive power

简明释义

粘着力

英英释义

例句

1.The new glue has exceptional adhesive power, making it perfect for heavy-duty repairs.

这种新胶水具有卓越的粘合力，非常适合重型修复。

2.When choosing a sealant, consider its adhesive power to ensure a long-lasting bond.

在选择密封剂时，请考虑其粘合力以确保持久的粘合。

3.This tape is known for its strong adhesive power, which allows it to hold even the heaviest items.

这种胶带以其强大的粘合力而闻名，可以承受甚至是最重的物品。

4.In construction, materials with high adhesive power are essential for ensuring structural integrity.

在建筑中，具有高粘合力的材料对于确保结构完整性至关重要。

5.The scientist tested the adhesive power of various polymers in her lab.

科学家在实验室测试了各种聚合物的粘合力。

作文

In the realm of science and technology, the term adhesive power refers to the ability of a substance to stick or bond to another surface. This property is crucial in various applications, from everyday household items to advanced industrial processes. Understanding adhesive power can help us appreciate how materials interact with each other and the importance of this interaction in our daily lives. For instance, when we use glue to fix a broken object, we rely on the adhesive power of the glue to create a strong bond that holds the pieces together.The concept of adhesive power is not limited to traditional adhesives like glue or tape. It also applies to natural phenomena, such as how water molecules adhere to surfaces. This property is known as adhesion, and it plays a significant role in many biological and environmental processes. For example, the ability of water to adhere to plant leaves allows for efficient water transport and photosynthesis, which are vital for plant growth.Moreover, in the construction industry, understanding adhesive power is essential for ensuring the integrity of structures. Engineers must consider the adhesive properties of materials when selecting adhesives for bonding different components, such as tiles, bricks, and metals. A strong adhesive power ensures that these materials stay securely in place, preventing structural failures that could lead to accidents or costly repairs.In the field of medicine, adhesive power is equally important. Surgical adhesives are used to close wounds and incisions, providing an alternative to traditional sutures. The effectiveness of these adhesives depends on their adhesive power, which must be strong enough to hold tissue together while also being biocompatible to prevent adverse reactions in the body. Researchers are continuously working to develop new adhesives with improved adhesive power to enhance surgical outcomes and patient recovery times.Furthermore, the packaging industry also benefits from a deep understanding of adhesive power. Adhesives are used to seal packages securely, ensuring that products remain protected during transportation and storage. A package that fails to maintain its seal due to weak adhesive power can lead to spoilage, contamination, or damage, resulting in financial losses for businesses. Therefore, manufacturers invest in high-quality adhesives with reliable adhesive power to safeguard their products.In conclusion, the concept of adhesive power is fundamental to various fields, including science, engineering, medicine, and packaging. By understanding how different materials interact through their adhesive properties, we can make informed decisions about their applications. Whether it's fixing a broken item at home, constructing a building, performing surgery, or packaging goods for sale, the adhesive power of materials plays a critical role in ensuring functionality and safety. As technology advances, the exploration of new adhesives with enhanced adhesive power will continue to shape our world, making it essential for us to grasp this concept fully.

在科学和技术领域，术语粘附力指的是一种物质粘附或结合到另一个表面的能力。这一特性在各种应用中至关重要，从日常家居用品到先进的工业过程。理解粘附力可以帮助我们欣赏材料之间的相互作用以及这种相互作用在我们日常生活中的重要性。例如，当我们使用胶水修复破损物品时，我们依赖于胶水的粘附力来创建一个强有力的结合，将这些部分固定在一起。粘附力的概念不仅限于传统的粘合剂，如胶水或胶带。它还适用于自然现象，例如水分子如何粘附在表面上。这种特性被称为粘附性，它在许多生物和环境过程中发挥着重要作用。例如，水能够粘附在植物叶子上，使水的有效运输和光合作用成为可能，这对植物生长至关重要。此外，在建筑行业，理解粘附力对于确保结构的完整性至关重要。工程师在选择不同组件的粘合剂时，必须考虑材料的粘附特性，例如瓷砖、砖块和金属。强大的粘附力确保这些材料保持牢固到位，防止结构故障，这可能导致事故或昂贵的维修。在医学领域，粘附力同样重要。外科粘合剂用于关闭伤口和切口，为传统缝合提供了一种替代方案。这些粘合剂的有效性取决于它们的粘附力，必须足够强以将组织固定在一起，同时又要具有生物相容性，以防止身体产生不良反应。研究人员不断努力开发新的粘合剂，以提高粘附力，从而改善手术结果和患者恢复时间。此外，包装行业也受益于对粘附力的深刻理解。粘合剂用于安全密封包装，确保产品在运输和存储过程中保持保护。由于粘附力不足而未能保持密封的包装可能导致变质、污染或损坏，给企业带来经济损失。因此，制造商投资于具有可靠粘附力的高质量粘合剂，以保护其产品。总之，粘附力的概念是科学、工程、医学和包装等多个领域的基础。通过理解不同材料通过其粘附特性相互作用的方式，我们可以就其应用做出明智的决策。无论是在家中修复破损物品、建造建筑、进行手术，还是包装商品出售，材料的粘附力在确保功能性和安全性方面都发挥着关键作用。随着技术的进步，对新型粘合剂的探索及其增强的粘附力将继续塑造我们的世界，因此全面掌握这一概念至关重要。