resistance to wear

简明释义

耐磨性

英英释义

例句

1.The fabric used in this jacket has excellent resistance to wear 耐磨性, making it ideal for outdoor activities.

这款夹克使用的面料具有出色的resistance to wear 耐磨性，非常适合户外活动。

2.The laboratory tested various coatings to determine their resistance to wear 耐磨性 under different conditions.

实验室测试了各种涂层，以确定它们在不同条件下的resistance to wear 耐磨性。

3.When choosing flooring for high-traffic areas, look for materials with good resistance to wear 耐磨性 to maintain their appearance.

在选择高流量区域的地板时，寻找具有良好resistance to wear 耐磨性的材料，以保持其外观。

4.Our new tires provide improved resistance to wear 耐磨性, offering better performance on rough terrains.

我们的新轮胎提供了改进的resistance to wear 耐磨性，在崎岖地形上提供更好的表现。

5.The new smartphone case is designed with enhanced resistance to wear 耐磨性, ensuring it lasts longer under daily use.

这款新智能手机壳采用了增强的resistance to wear 耐磨性设计，确保在日常使用中更持久。

作文

In the realm of materials science, one of the most significant properties that engineers and designers look for is resistance to wear. This term refers to a material's ability to withstand mechanical wear, which is the gradual removal of material from its surface due to friction and contact with other surfaces. The importance of resistance to wear cannot be overstated, as it plays a crucial role in determining the lifespan and durability of products ranging from industrial machinery to everyday consumer goods.For instance, consider the automotive industry. Vehicles are subjected to constant friction between various components such as brakes, tires, and engines. Materials used in these components must possess high resistance to wear to ensure that they do not degrade quickly, which would lead to costly repairs and safety hazards. Brake pads, for example, are often made from composite materials that are specifically engineered to provide excellent resistance to wear, thereby enhancing the performance and longevity of the braking system.Similarly, in the manufacturing sector, tools and machinery are frequently exposed to harsh conditions that can cause significant wear over time. Tools made from high-speed steel or carbide are designed with resistance to wear in mind, allowing them to maintain sharpness and effectiveness even after extensive use. This not only improves productivity but also reduces the frequency of tool replacements, leading to cost savings for businesses.Moreover, the concept of resistance to wear extends beyond industrial applications. In the world of consumer products, items such as shoes, clothing, and furniture are all designed with this property in consideration. For example, outdoor gear is often made from synthetic fabrics that exhibit high resistance to wear, ensuring that they can withstand the rigors of hiking, climbing, and other adventurous activities without falling apart.The development of new materials with enhanced resistance to wear is an ongoing area of research. Scientists and engineers are continually exploring innovative solutions, such as coatings and treatments that can significantly improve the wear properties of existing materials. For instance, nanotechnology has opened up new avenues for enhancing resistance to wear by creating surface modifications at the molecular level, resulting in materials that are not only tougher but also lighter.In conclusion, resistance to wear is a vital characteristic that influences the design and functionality of a wide array of products across various industries. By understanding and improving this property, manufacturers can create more durable and efficient products, ultimately benefiting both consumers and the environment. As we continue to innovate and develop new materials, the importance of resistance to wear will remain a key focus in ensuring that our products stand the test of time.

在材料科学领域，工程师和设计师最看重的特性之一是耐磨性。这个术语指的是材料抵御机械磨损的能力，即由于摩擦和与其他表面接触而逐渐去除其表面的材料。耐磨性的重要性不容小觑，因为它在决定从工业机械到日常消费品的产品寿命和耐用性方面起着关键作用。例如，考虑汽车工业。车辆不断地受到刹车、轮胎和发动机等各个部件之间的摩擦。用于这些部件的材料必须具有高耐磨性，以确保它们不会迅速降解，这将导致昂贵的维修费用和安全隐患。刹车片就是一个例子，通常由复合材料制成，专门设计以提供优异的耐磨性，从而提高制动系统的性能和使用寿命。同样，在制造业中，工具和机械经常暴露在可能造成显著磨损的恶劣条件下。采用高速钢或碳化物制成的工具在设计时就考虑到了耐磨性，使它们即使经过广泛使用也能保持锋利和有效。这不仅提高了生产效率，还减少了工具更换的频率，从而为企业节省成本。此外，耐磨性的概念不仅限于工业应用。在消费品的世界里，鞋子、衣物和家具等物品的设计都考虑到了这一特性。例如，户外装备通常由合成面料制成，展现出高耐磨性，确保它们能够承受远足、攀岩和其他冒险活动的严酷考验，而不会崩溃。开发具有增强耐磨性的新材料是一个持续的研究领域。科学家和工程师不断探索创新解决方案，例如涂层和处理，可以显著改善现有材料的耐磨性能。例如，纳米技术为增强耐磨性开辟了新的途径，通过在分子水平上创建表面改性，产生更加坚固且轻便的材料。总之，耐磨性是影响各行业各种产品设计和功能的关键特性。通过理解和改善这一属性，制造商可以创造出更耐用、更高效的产品，最终惠及消费者和环境。随着我们继续创新和开发新材料，耐磨性的重要性将始终是确保我们的产品经得起时间考验的关键关注点。