resistance to abrasion

简明释义

耐磨性

英英释义

例句

1.The manufacturer advertised their tires as having superior resistance to abrasion for longer-lasting performance.

制造商宣传他们的轮胎具有优越的耐磨性，以提供更持久的性能。

2.The new flooring material was chosen for its resistance to abrasion, making it ideal for high-traffic areas.

新地板材料因其耐磨性而被选中，适合高流量区域。

3.The new paint used on the walls has excellent resistance to abrasion, ensuring it remains intact for years.

用于墙壁的新涂料具有优异的耐磨性，确保它在多年内保持完好。

4.When selecting a backpack, look for fabrics with good resistance to abrasion to ensure durability.

在选择背包时，寻找具有良好耐磨性的面料，以确保耐用性。

5.In construction, materials with high resistance to abrasion are essential for areas exposed to heavy wear.

在建筑中，具有高耐磨性的材料对于暴露于重磨损的区域至关重要。

作文

The term resistance to abrasion refers to the ability of a material to withstand wear and tear caused by friction or contact with other surfaces. This property is crucial in various industries, especially those that deal with materials that undergo constant movement or interaction. For instance, consider the construction industry where materials like concrete, tiles, and asphalt are frequently exposed to heavy machinery and foot traffic. The resistance to abrasion of these materials ensures their longevity and performance under demanding conditions.In the textile industry, resistance to abrasion plays a significant role in determining the quality and durability of fabrics. High-performance fabrics used in outdoor gear, workwear, and upholstery must possess strong resistance to abrasion to endure harsh environments and frequent use. Fabrics that lack this property can easily fray, tear, or lose their aesthetic appeal, leading to increased costs for consumers and manufacturers alike.Moreover, in the automotive sector, the resistance to abrasion of components such as brake pads and tires is essential for safety and efficiency. Brake pads, for example, must maintain their effectiveness over time while resisting wear from constant friction against rotors. Similarly, tires need to have excellent resistance to abrasion to ensure they can handle various road conditions without deteriorating quickly. This not only affects vehicle performance but also impacts fuel efficiency and overall safety on the road.In addition to these practical applications, understanding resistance to abrasion is vital for engineers and designers who seek to innovate and improve existing materials. By studying the factors that contribute to this property, such as material composition and surface treatments, professionals can develop new products that offer enhanced durability and performance. For example, advancements in polymer technology have led to the creation of synthetic materials that exhibit remarkable resistance to abrasion, making them ideal for a wide range of applications from industrial equipment to everyday consumer goods.Furthermore, the importance of resistance to abrasion extends beyond mere functionality; it also has environmental implications. Products that last longer due to their high resistance to abrasion can contribute to sustainability efforts by reducing waste and the need for frequent replacements. This is particularly relevant in today’s world, where consumers and companies alike are becoming increasingly aware of their environmental footprint.In conclusion, resistance to abrasion is a critical property that influences the performance, durability, and sustainability of various materials across multiple industries. Whether in construction, textiles, automotive, or engineering, understanding and improving this property can lead to better products that meet the demands of modern life. As we continue to innovate and push the boundaries of material science, the significance of resistance to abrasion will undoubtedly remain a key focus for researchers and industry leaders alike. Ultimately, it is the combination of science and practicality that drives progress and enhances our everyday experiences with the products we rely on.

“抗磨损性”这个术语指的是材料抵御因摩擦或与其他表面接触而造成的磨损和撕裂的能力。这个特性在各个行业中都至关重要，尤其是在那些处理材料的行业，这些材料经常进行移动或相互作用。例如，考虑建筑行业，其中混凝土、瓷砖和沥青等材料经常暴露于重型机械和人流之中。这些材料的“抗磨损性”确保它们在苛刻条件下的耐用性和性能。在纺织行业，“抗磨损性”在决定面料的质量和耐用性方面发挥着重要作用。用于户外装备、工作服和室内装饰的高性能面料必须具备强大的“抗磨损性”，以承受恶劣环境和频繁使用。缺乏这一特性的面料容易磨损、撕裂或失去美观，从而导致消费者和制造商的成本增加。此外，在汽车行业，刹车片和轮胎等部件的“抗磨损性”对安全性和效率至关重要。例如，刹车片必须在时间的推移中保持其有效性，同时抵御来自转子不断摩擦的磨损。同样，轮胎需要具备出色的“抗磨损性”，以确保它们能够应对各种路况，而不会迅速退化。这不仅影响车辆性能，还会影响燃油效率和道路安全。除了这些实际应用，理解“抗磨损性”对寻求创新和改善现有材料的工程师和设计师来说至关重要。通过研究影响这一特性的因素，例如材料成分和表面处理，专业人士可以开发出提供增强耐用性和性能的新产品。例如，聚合物技术的进步使得合成材料的创造成为可能，这些材料表现出显著的“抗磨损性”，使它们理想用于从工业设备到日常消费品的广泛应用。此外，“抗磨损性”的重要性超越了单纯的功能性；它还有环境影响。由于其高“抗磨损性”而持久的产品可以通过减少浪费和不频繁更换来帮助可持续发展努力。在当今世界，消费者和公司越来越意识到他们的环境足迹，这一点尤其相关。总之，“抗磨损性”是一个关键特性，影响着各个行业中各种材料的性能、耐用性和可持续性。无论是在建筑、纺织、汽车还是工程领域，理解和改善这一特性都可以导致更好的产品，以满足现代生活的需求。随着我们继续创新并推动材料科学的边界，“抗磨损性”的重要性无疑将继续成为研究人员和行业领导者关注的重点。最终，科学与实用性的结合推动了进步，提升了我们日常使用依赖产品的体验。