admissible wear

简明释义

容许磨损

英英释义

例句

1.Regular maintenance is crucial for ensuring that admissible wear 可接受的磨损 does not lead to serious issues.

定期维护对于确保可接受的磨损不会导致严重问题至关重要。

2.The engineer explained the importance of monitoring admissible wear 可接受的磨损 to prevent equipment failure.

工程师解释了监测可接受的磨损以防止设备故障的重要性。

3.Before purchasing, ensure you understand the admissible wear 可接受的磨损 limits set by the warranty.

在购买之前，确保你了解保修所设定的可接受的磨损限制。

4.In the audit, we found that the equipment had exceeded its admissible wear 可接受的磨损 threshold.

在审核中，我们发现设备已超过其可接受的磨损阈值。

5.The manufacturer specified that the product could tolerate a certain level of admissible wear 可接受的磨损 over time.

制造商规定，该产品在一段时间内可以容忍一定程度的可接受的磨损。

作文

In the world of engineering and manufacturing, understanding the concept of admissible wear is crucial for ensuring the longevity and efficiency of machinery and equipment. Admissible wear refers to the acceptable level of wear and tear that a component can undergo before it needs to be repaired or replaced. This concept is particularly important in industries where machines are subjected to constant use and stress, such as automotive, aerospace, and heavy machinery sectors. The importance of admissible wear cannot be overstated. When parts of a machine wear down, they can lead to decreased performance, increased energy consumption, and even catastrophic failures if not monitored properly. For instance, in an automobile, components like brakes, tires, and engines all have specific tolerances for admissible wear. If these components exceed their permissible limits, the safety and performance of the vehicle could be compromised.To effectively manage admissible wear, engineers employ various techniques. One common method is regular maintenance and inspection. By routinely checking the condition of critical components, potential issues can be identified early, allowing for timely repairs or replacements. Additionally, advanced technologies such as predictive maintenance and condition monitoring systems are increasingly being utilized. These systems use sensors and data analytics to predict when a component is likely to reach its admissible wear limit, enabling proactive measures to be taken before a failure occurs.Another aspect of managing admissible wear involves material selection. Engineers must choose materials that not only withstand operational stresses but also have well-defined wear characteristics. For example, in high-friction applications, materials with low wear rates are preferred to extend the lifespan of components. Understanding the wear mechanisms at play—such as abrasion, adhesion, and corrosion—is essential for selecting the right materials that will optimize performance while adhering to admissible wear standards.Moreover, the design of components plays a significant role in determining their admissible wear limits. Engineers often use simulations and modeling to predict how different designs will perform under stress and to identify areas where wear may occur. By optimizing the design, engineers can enhance the durability of components, thus increasing their admissible wear thresholds.In conclusion, admissible wear is a vital concept in the field of engineering and manufacturing. It encompasses the acceptable levels of wear that components can endure throughout their operational life. By implementing regular maintenance, utilizing advanced monitoring technologies, selecting appropriate materials, and optimizing designs, industries can effectively manage wear and prolong the life of their machinery. Understanding and applying the principles of admissible wear ultimately leads to improved safety, efficiency, and cost-effectiveness in various engineering applications.

在工程和制造的世界中，理解“admissible wear”这一概念对于确保机械和设备的耐久性和效率至关重要。“admissible wear”指的是一个部件在需要维修或更换之前可以经历的可接受磨损程度。这个概念在机器经常使用和承受压力的行业中尤为重要，例如汽车、航空航天和重型机械行业。“admissible wear”的重要性不容小觑。当机器的部件磨损时，可能会导致性能下降、能耗增加，甚至如果未能妥善监控，还可能导致灾难性的故障。例如，在一辆汽车中，刹车、轮胎和发动机等组件都有特定的“admissible wear”容限。如果这些组件超过了其允许的极限，车辆的安全性和性能可能会受到影响。为了有效管理“admissible wear”，工程师采用各种技术。一种常见的方法是定期维护和检查。通过定期检查关键组件的状况，可以及早发现潜在问题，从而及时进行维修或更换。此外，先进的技术如预测性维护和状态监测系统也越来越多地被应用。这些系统利用传感器和数据分析来预测某个组件何时可能达到其“admissible wear”限制，从而在故障发生之前采取主动措施。管理“admissible wear”的另一个方面涉及材料选择。工程师必须选择不仅能承受操作压力，而且具有良好磨损特性的材料。例如，在高摩擦应用中，优选低磨损率的材料以延长组件的使用寿命。理解磨损机制（如磨蚀、粘附和腐蚀）对于选择能够优化性能并符合“admissible wear”标准的合适材料至关重要。此外，组件的设计在确定其“admissible wear”极限方面也起着重要作用。工程师通常使用模拟和建模来预测不同设计在压力下的表现，并识别可能发生磨损的区域。通过优化设计，工程师可以增强组件的耐用性，从而提高其“admissible wear”阈值。总之，“admissible wear”是工程和制造领域中的一个重要概念。它包含了组件在其操作生命周期内可以承受的可接受磨损水平。通过实施定期维护、利用先进的监测技术、选择合适的材料和优化设计，各行业可以有效管理磨损并延长其机械的使用寿命。理解和应用“admissible wear”的原则最终将带来更高的安全性、效率和成本效益。