abrasive resistance

简明释义

抗磨力

英英释义

例句

1.The new coating on the floor provides excellent abrasive resistance 耐磨性, making it ideal for high-traffic areas.

新地板涂层提供了优异的abrasive resistance 耐磨性，非常适合高流量区域。

2.This paint is specially formulated for abrasive resistance 耐磨性, suitable for use in workshops and garages.

这种油漆专门配方用于abrasive resistance 耐磨性，适合在车间和车库使用。

3.When selecting materials for industrial applications, consider their abrasive resistance 耐磨性 to ensure longevity.

在选择工业应用材料时，考虑它们的abrasive resistance 耐磨性以确保耐用性。

4.The flooring material was chosen for its high abrasive resistance 耐磨性, ensuring it lasts in a busy environment.

该地板材料因其高abrasive resistance 耐磨性而被选中，确保在繁忙环境中持久使用。

5.The automotive industry often tests parts for abrasive resistance 耐磨性 to prevent wear and tear during operation.

汽车行业经常测试零件的abrasive resistance 耐磨性，以防止在运行过程中磨损。

作文

In today's fast-paced industrial world, the demand for materials that can withstand harsh conditions is ever-increasing. One of the key properties that engineers and manufacturers look for in materials is abrasive resistance. This term refers to the ability of a material to resist wear and tear caused by friction and contact with other surfaces. Understanding abrasive resistance is crucial for various applications, including construction, manufacturing, and even everyday products. To illustrate the importance of abrasive resistance, consider the automotive industry. Cars are subjected to numerous stressors, from road debris to the friction generated between moving parts. Components like brake pads and tires must exhibit high abrasive resistance to ensure longevity and safety. If these parts wear down too quickly, it can lead to increased maintenance costs and potential hazards on the road. Therefore, manufacturers invest heavily in developing materials with superior abrasive resistance to enhance the performance and durability of their vehicles.Another area where abrasive resistance plays a significant role is in the construction sector. Tools and machinery used in construction often encounter rough surfaces and abrasive materials such as concrete and stone. For instance, diamond-tipped drills are favored for their exceptional abrasive resistance, allowing them to penetrate hard surfaces without losing effectiveness. This not only ensures efficiency in construction projects but also reduces downtime caused by tool replacement or maintenance.In addition to industrial applications, abrasive resistance is also relevant in consumer products. Take kitchen utensils, for example. High-quality cookware often features non-stick surfaces that possess excellent abrasive resistance. This property allows the cookware to maintain its appearance and functionality over time, despite regular use and cleaning. Consumers benefit from products that last longer and perform better, which ultimately enhances their overall experience.Moreover, understanding abrasive resistance is essential for environmental sustainability. Many industries are now focusing on creating materials that not only perform well but also have a reduced environmental impact. By developing products with high abrasive resistance, manufacturers can decrease the frequency of replacements and waste generated from discarded items. This shift towards more durable materials contributes to a more sustainable future, aligning with global efforts to minimize waste and conserve resources.In conclusion, abrasive resistance is a critical property that influences the performance and longevity of materials across various industries. From automotive to construction and consumer goods, the ability to withstand wear and tear is paramount. As technology advances, the development of materials with enhanced abrasive resistance will continue to play a vital role in improving product quality and sustainability. By prioritizing this property, we can ensure that our tools, vehicles, and everyday products meet the demands of modern life while contributing to a healthier planet.

在当今快节奏的工业世界中，对能够承受恶劣条件的材料的需求日益增加。工程师和制造商在寻找材料时关注的关键属性之一是耐磨性。这个术语指的是材料抵抗摩擦和与其他表面接触所造成的磨损的能力。理解耐磨性对于各种应用至关重要，包括建筑、制造，甚至日常产品。为了说明耐磨性的重要性，可以考虑汽车工业。汽车会受到许多压力，从路面碎片到移动部件之间产生的摩擦。刹车片和轮胎等部件必须表现出高耐磨性以确保其耐用性和安全性。如果这些部件磨损过快，可能会导致维护成本增加和道路上的潜在危险。因此，制造商在开发具有优越耐磨性的材料方面投入巨资，以提升其车辆的性能和耐用性。另一个耐磨性发挥重要作用的领域是建筑行业。在建筑过程中使用的工具和机械常常会遇到粗糙的表面和诸如混凝土和石材等磨蚀性材料。例如，钻石尖端的钻头因其卓越的耐磨性而受到青睐，使其能够在不失效的情况下穿透坚硬的表面。这不仅确保了建筑项目的效率，还减少了因工具更换或维护而造成的停工时间。除了工业应用，耐磨性在消费产品中也很相关。例如厨房用具。高品质的炊具通常具有出色的耐磨性的不粘表面。这种特性使炊具在经常使用和清洗后仍能保持外观和功能。消费者从更耐用和更好性能的产品中受益，这最终增强了他们的整体体验。此外，理解耐磨性对环境可持续性至关重要。许多行业现在专注于创造不仅性能良好而且对环境影响较小的材料。通过开发具有高耐磨性的产品，制造商可以减少更换频率和因废弃物产生的垃圾。这种向更耐用材料的转变有助于实现更可持续的未来，与全球减少垃圾和保护资源的努力相一致。总之，耐磨性是影响各行业材料性能和耐用性的关键属性。从汽车到建筑和消费品，抵抗磨损的能力至关重要。随着技术的进步，具有增强的耐磨性的材料的开发将继续在提高产品质量和可持续性方面发挥重要作用。通过优先考虑这一属性，我们可以确保我们的工具、车辆和日常产品满足现代生活的需求，同时为一个更健康的星球贡献力量。