wear resistance
简明释义
耐磨性
英英释义
例句
1.The new flooring material has excellent wear resistance 耐磨性, making it ideal for high-traffic areas.
这种新地板材料具有出色的耐磨性,耐磨性使其非常适合高流量区域。
2.In industrial applications, components with high wear resistance 耐磨性 can significantly reduce maintenance costs.
在工业应用中,具有高耐磨性的组件可以显著降低维护成本。
3.The new sports shoes are designed with wear resistance 耐磨性 materials to enhance durability during intense activities.
这款新运动鞋采用了具有耐磨性的材料,以增强在剧烈活动中的耐用性。
4.Car manufacturers often test tires for wear resistance 耐磨性 to ensure safety and longevity.
汽车制造商通常会测试轮胎的耐磨性,以确保安全性和耐久性。
5.When choosing a paint for outdoor furniture, look for options with good wear resistance 耐磨性 to withstand the elements.
选择户外家具的油漆时,寻找具有良好耐磨性的选项,以抵御天气影响。
作文
In today's fast-paced world, the demand for durable materials is greater than ever. One of the key properties that manufacturers look for in materials is wear resistance. This term refers to the ability of a material to withstand wear and tear caused by friction and mechanical stress over time. Understanding wear resistance is crucial for industries such as automotive, aerospace, and construction, where the longevity and reliability of components are paramount.To illustrate the importance of wear resistance, let’s consider the automotive industry. Cars are subjected to various forms of stress, from the friction between tires and the road to the mechanical wear on engine components. Materials that exhibit high wear resistance can significantly enhance the durability of these parts, leading to longer-lasting vehicles. For instance, brake pads made from materials with excellent wear resistance ensure safety and performance, as they maintain their effectiveness over time without deteriorating quickly.Moreover, the aerospace industry also heavily relies on materials with high wear resistance. Aircraft components must endure extreme conditions, including high speeds and varying temperatures. Using materials that can resist wear not only improves the lifespan of these components but also enhances overall safety and efficiency. Engineers often select alloys and composites specifically designed for their wear resistance properties to ensure that critical parts do not fail under stress.In construction, tools and machinery experience significant wear due to constant use. For example, drill bits and cutting tools must be made from materials that have high wear resistance to maintain their functionality and reduce the need for frequent replacements. This not only saves costs but also improves productivity, as workers can rely on their tools to perform consistently over time.Furthermore, advancements in technology have led to the development of new materials with enhanced wear resistance. Innovations such as ceramic coatings and advanced polymers provide solutions that were previously unavailable. These materials can be engineered to provide superior performance in harsh environments, thus expanding the possibilities for their application across various industries.In conclusion, wear resistance is a vital property that affects the performance and longevity of materials used in many sectors. As industries continue to evolve, the emphasis on developing and utilizing materials with high wear resistance will remain crucial. Not only does it lead to improved safety and efficiency, but it also contributes to sustainability by reducing waste generated from frequent replacements. Understanding and investing in wear resistance is essential for companies aiming to stay competitive in today's market.
在当今快节奏的世界中,对耐用材料的需求比以往任何时候都要大。制造商在材料中寻找的关键特性之一是耐磨性。这个术语指的是材料抵御由于摩擦和机械压力造成的磨损和撕裂的能力。理解耐磨性对汽车、航空航天和建筑等行业至关重要,这些行业的组件的耐久性和可靠性至关重要。为了说明耐磨性的重要性,我们来看一下汽车行业。汽车会受到各种形式的压力,从轮胎与道路之间的摩擦到发动机部件上的机械磨损。具有高耐磨性的材料可以显著增强这些部件的耐久性,延长车辆的使用寿命。例如,采用具有优异耐磨性的材料制成的刹车片可以确保安全和性能,因为它们能够随着时间的推移保持有效性,而不会迅速退化。此外,航空航天行业也严重依赖于具有高耐磨性的材料。飞机部件必须承受极端条件,包括高速和温度变化。使用能够抵抗磨损的材料不仅提高了这些部件的使用寿命,还增强了整体安全性和效率。工程师通常选择专门设计用于其耐磨性特性的合金和复合材料,以确保关键部件在压力下不会失效。在建筑领域,工具和机械由于不断使用而经历显著磨损。例如,钻头和切割工具必须由具有高耐磨性的材料制成,以维持其功能并减少频繁更换的需要。这不仅节省了成本,还提高了生产力,因为工人可以依靠他们的工具在一段时间内持续有效地工作。此外,技术的进步导致了具有增强耐磨性的新材料的发展。陶瓷涂层和先进聚合物等创新提供了以前无法获得的解决方案。这些材料可以被工程设计为在恶劣环境中提供卓越的性能,从而扩展它们在各个行业中的应用可能性。总之,耐磨性是影响许多行业中使用的材料的性能和耐久性的关键特性。随着行业的不断发展,开发和利用具有高耐磨性的材料的重视将继续至关重要。这不仅能提高安全性和效率,还有助于通过减少频繁更换所产生的废物来促进可持续发展。理解和投资于耐磨性对于希望在当今市场中保持竞争力的公司来说至关重要。
