abrasive resistance

简明释义

抗磨强度

英英释义

例句

1.The construction material was chosen for its superior abrasive resistance 耐磨性, which is crucial for heavy-duty applications.

该建筑材料因其优越的abrasive resistance 耐磨性而被选中，这对于重型应用至关重要。

2.The new coating on the machinery provides excellent abrasive resistance 耐磨性, ensuring longer equipment life.

机器上的新涂层提供了出色的abrasive resistance 耐磨性，确保设备使用寿命更长。

3.The paint used in this project has been formulated for abrasive resistance 耐磨性, making it ideal for outdoor applications.

本项目中使用的油漆经过配方设计，具有abrasive resistance 耐磨性，非常适合户外应用。

4.In the automotive industry, parts are often tested for abrasive resistance 耐磨性 to ensure longevity under harsh conditions.

在汽车行业，零件通常会经过abrasive resistance 耐磨性测试，以确保在恶劣条件下的耐久性。

5.When selecting flooring for high-traffic areas, it’s important to choose materials with good abrasive resistance 耐磨性.

在为高流量区域选择地板时，选择具有良好abrasive resistance 耐磨性的材料是很重要的。

作文

In the realm of materials science and engineering, the term abrasive resistance plays a crucial role in determining the durability and longevity of various products. 耐磨性 refers to the ability of a material to withstand wear and tear caused by friction and contact with other surfaces. This property is particularly significant in industries where machinery and tools are subjected to harsh conditions, such as construction, manufacturing, and mining. The importance of abrasive resistance cannot be overstated. For instance, consider the tools used in construction. Drill bits, saw blades, and grinding wheels must possess high abrasive resistance to ensure they remain effective over time. If these tools wear down too quickly, it leads to increased operational costs, downtime, and ultimately affects productivity. Therefore, understanding and improving the abrasive resistance of materials can lead to significant advancements in efficiency and cost-effectiveness in various industries.Moreover, the concept of abrasive resistance extends beyond just tools and machinery. It also applies to consumer products such as flooring, countertops, and automotive finishes. For example, a kitchen countertop made from a material with high abrasive resistance will be more durable against scratches from knives and other utensils, maintaining its aesthetic appeal over time. Similarly, car manufacturers strive to use materials that exhibit excellent abrasive resistance for the exterior of vehicles to protect against the wear caused by environmental factors and road debris.Testing for abrasive resistance typically involves standardized methods that measure how much material is lost due to abrasion over time. These tests help manufacturers select the right materials for specific applications and ensure that their products meet the necessary performance standards. The development of new materials, such as advanced composites and coatings, has also enhanced abrasive resistance, allowing for innovations in product design and functionality.In conclusion, abrasive resistance is a vital characteristic that impacts the performance and lifespan of materials across various sectors. As technology advances, the quest for materials with superior abrasive resistance continues to drive innovation, leading to better products that can withstand the rigors of daily use. Understanding this property not only helps engineers and manufacturers create more durable products but also enhances the overall user experience by providing reliable and long-lasting solutions. As we move forward, the significance of abrasive resistance will undoubtedly remain a focal point in material selection and engineering design.

在材料科学和工程领域，术语耐磨性在确定各种产品的耐用性和使用寿命方面起着至关重要的作用。耐磨性是指材料抵抗因摩擦和与其他表面接触而造成的磨损和撕裂的能力。这一特性在机械和工具面临恶劣条件的行业中尤为重要，例如建筑、制造和采矿。耐磨性的重要性不容小觑。例如，考虑一下建筑中使用的工具。钻头、锯片和砂轮必须具有高耐磨性以确保它们在使用过程中保持有效。如果这些工具磨损得太快，就会导致运营成本增加、停工时间延长，从而影响生产力。因此，理解和改善材料的耐磨性可以在各个行业中带来显著的效率和成本效益提升。此外，耐磨性的概念不仅仅适用于工具和机械。它还适用于消费者产品，如地板、台面和汽车涂层。例如，采用高耐磨性材料制成的厨房台面将更耐刮擦，能够抵御刀具和其他器具的划痕，从而保持其外观的美感。同样，汽车制造商也努力使用表现出优良耐磨性的材料，以保护车辆外部免受环境因素和路面碎屑造成的磨损。对耐磨性的测试通常涉及标准化的方法，测量材料在一段时间内由于磨损而损失的数量。这些测试帮助制造商为特定应用选择合适的材料，并确保他们的产品符合必要的性能标准。新材料的开发，例如先进的复合材料和涂层，也增强了耐磨性，允许在产品设计和功能上进行创新。总之，耐磨性是影响各个行业材料性能和使用寿命的重要特性。随着技术的进步，对优越耐磨性材料的追求继续推动创新，带来更耐用的产品，能够承受日常使用的严酷考验。理解这一特性不仅有助于工程师和制造商创造更耐用的产品，还通过提供可靠和持久的解决方案增强整体用户体验。随着我们向前发展，耐磨性的重要性无疑仍将是材料选择和工程设计的重点。