abrasive resistance

简明释义

耐磨性

英英释义

例句

1.The automotive industry relies on parts with great abrasive resistance 耐磨性 to withstand harsh conditions.

汽车行业依赖于具有出色耐磨性abrasive resistance的零部件以承受恶劣条件。

2.The manufacturer claims that the new fabric offers superior abrasive resistance 耐磨性 against wear and tear.

制造商声称这种新面料提供优越的耐磨性abrasive resistance，可抵御磨损。

3.The new paint has excellent abrasive resistance 耐磨性, making it ideal for high-traffic areas.

这种新油漆具有优良的耐磨性abrasive resistance，非常适合高流量区域。

4.When choosing flooring materials, consider their abrasive resistance 耐磨性 to ensure longevity.

在选择地板材料时，要考虑它们的耐磨性abrasive resistance以确保耐用性。

5.In construction, materials with high abrasive resistance 耐磨性 are essential for durability.

在建筑中，具有高耐磨性abrasive resistance的材料对耐用性至关重要。

作文

In the world of materials science and engineering, the term abrasive resistance refers to the ability of a material to withstand wear and tear caused by friction and contact with other surfaces. This property is crucial for various applications, especially in industries that involve heavy machinery, construction, and manufacturing. Understanding abrasive resistance can lead to better material selection and improved product longevity, ultimately resulting in cost savings and enhanced performance.For instance, consider the importance of abrasive resistance in the manufacturing of cutting tools. These tools are constantly subjected to harsh conditions where they come into contact with hard materials. If the cutting tool lacks sufficient abrasive resistance, it will wear down quickly, leading to frequent replacements and downtime in production. Therefore, manufacturers invest significant resources in developing materials that exhibit high abrasive resistance, such as carbide or high-speed steel, which can endure the rigors of cutting without losing their edge too rapidly.Moreover, abrasive resistance is also vital in the construction industry. For example, concrete is often used in floors, pavements, and roads. The surface of these structures is exposed to heavy traffic and environmental factors that can cause erosion over time. By enhancing the abrasive resistance of concrete through the use of additives or specific curing techniques, engineers can create more durable surfaces that require less maintenance and have a longer lifespan. This not only benefits the environment by reducing the need for repairs but also saves money for both contractors and city planners.In everyday life, we encounter products designed with abrasive resistance in mind. For example, many kitchen utensils, such as knives and graters, are made from materials that resist wear and maintain their sharpness over time. This characteristic ensures that consumers get the best performance from their tools, making cooking more efficient and enjoyable. Additionally, consumer goods like shoes and clothing often incorporate materials with high abrasive resistance to withstand daily use and maintain their appearance and functionality longer.The significance of abrasive resistance extends beyond just practical applications; it also has environmental implications. By choosing materials with better abrasive resistance, we can reduce waste generated from frequent replacements and repairs. This aligns with the growing emphasis on sustainability in manufacturing and product design. Companies are increasingly held accountable for their environmental impact, and improving abrasive resistance in their products can be a step towards more eco-friendly practices.In conclusion, abrasive resistance is a critical property in materials science that affects a wide range of industries and applications. From cutting tools to construction materials and everyday consumer products, the ability to resist wear and tear can significantly influence performance, durability, and environmental sustainability. As technology advances and new materials are developed, understanding and improving abrasive resistance will remain a key focus for engineers and manufacturers alike. By prioritizing this property, we can ensure that our products not only meet the demands of today but also contribute to a more sustainable future.

在材料科学和工程领域，术语耐磨性指的是材料抵御因摩擦和与其他表面接触而造成的磨损的能力。这一特性对于各种应用至关重要，尤其是在涉及重型机械、建筑和制造的行业。理解耐磨性可以导致更好的材料选择和提高产品的使用寿命，最终带来成本节约和性能提升。例如，考虑到耐磨性在切削工具制造中的重要性。这些工具常常处于苛刻条件下，与硬材料接触。如果切削工具缺乏足够的耐磨性，它将迅速磨损，导致频繁更换和生产停机。因此，制造商在开发具有高耐磨性的材料方面投入了大量资源，例如碳化物或高速钢，它们能够承受切削的严酷环境，而不至于过快失去锋利度。此外，耐磨性在建筑行业也至关重要。例如，混凝土通常用于地面、铺路和道路。这些结构的表面暴露在重型交通和环境因素下，可能随着时间的推移而发生侵蚀。通过采用添加剂或特定的固化技术来增强混凝土的耐磨性，工程师可以创造出更耐用的表面，减少维护需求并延长使用寿命。这不仅有利于环境，减少修复的需要，还为承包商和城市规划者节省了资金。在日常生活中，我们会遇到设计时考虑到耐磨性的产品。例如，许多厨房用具，如刀具和擦菜器，采用耐磨材料制成，以抵御磨损并保持其锋利度。这一特性确保消费者能从工具中获得最佳性能，使烹饪更加高效和愉悦。此外，诸如鞋子和衣物等消费品通常采用高耐磨性的材料，以抵御日常使用并保持其外观和功能的持久性。耐磨性的重要性不仅仅体现在实际应用上；它还有环境影响。通过选择具有更好耐磨性的材料，我们可以减少因频繁更换和修理而产生的废物。这与制造和产品设计中日益重视可持续性相一致。公司越来越需要对其环境影响负责，提高产品的耐磨性可以成为更环保实践的一步。总之，耐磨性是材料科学中的一个关键特性，影响着广泛的行业和应用。从切削工具到建筑材料以及日常消费品，抵抗磨损和撕裂的能力可以显著影响性能、耐用性和环境可持续性。随着技术的进步和新材料的开发，理解和提高耐磨性将继续成为工程师和制造商的重点。通过优先考虑这一特性，我们可以确保我们的产品不仅满足当今的需求，还能为更可持续的未来做出贡献。