wear out failure

简明释义

磨损故障

英英释义

例句

1.In manufacturing, wear out failure can lead to unexpected downtime if machinery is not regularly maintained.

在制造业中，如果机器没有定期维护，磨损故障可能导致意外停机。

2.The mechanic explained that the car's engine suffered from wear out failure, which means it had reached the end of its operational life.

机械师解释说，汽车的发动机遭遇了磨损故障，这意味着它已经达到了其操作寿命的尽头。

3.To prevent wear out failure, it's crucial to follow the recommended maintenance schedule for all equipment.

为了防止磨损故障，遵循所有设备的推荐维护计划至关重要。

4.The technician repaired the conveyor belt before it experienced wear out failure that could halt production.

技术员在传送带遭遇磨损故障可能停止生产之前进行了修理。

5.The engineer noted that the bearings showed signs of wear out failure, indicating they needed to be replaced soon.

工程师指出，轴承出现了磨损故障的迹象，这表明它们需要尽快更换。

作文

In the realm of engineering and manufacturing, the term wear out failure refers to the degradation of a component or system due to prolonged use. This phenomenon occurs when materials lose their structural integrity over time, leading to malfunctions or complete breakdowns. Understanding wear out failure is crucial for engineers and designers, as it directly impacts the reliability and lifespan of products. For instance, consider a simple mechanical device, such as a bicycle. The constant friction between the brake pads and the wheel rims causes wear over time. Eventually, the brake pads will thin out, resulting in decreased braking efficiency. This scenario exemplifies wear out failure, where the component fails due to repeated stress and usage. To mitigate such failures, engineers often implement maintenance schedules and use higher quality materials that can withstand wear better than standard options.Moreover, wear out failure is not limited to mechanical devices; it can also be observed in electronic components. For example, capacitors in a circuit can degrade due to thermal stress and electrical load. As these components age, their ability to store charge diminishes, which can lead to circuit malfunctions. Recognizing the signs of wear out failure in electronics is essential for ensuring the longevity and reliability of electronic devices.One effective strategy to combat wear out failure is through predictive maintenance. By analyzing data from sensors embedded in machinery, companies can predict when a component is likely to fail and replace it before it does. This proactive approach not only enhances safety but also reduces downtime and repair costs. For instance, airlines utilize predictive maintenance to ensure aircraft components are replaced at optimal times, preventing potential failures during flights.Additionally, the design phase of a product should account for wear out failure. Engineers can employ techniques such as redundancy, where multiple components perform the same function. If one component wears out, another can take over, ensuring the system continues to operate smoothly. This design philosophy is prevalent in critical systems, such as aerospace and medical devices, where failure can have severe consequences.In conclusion, understanding wear out failure is vital for anyone involved in the design, manufacturing, or maintenance of products. By recognizing the factors that contribute to this type of failure, professionals can implement strategies to enhance durability and reliability. Whether through improved materials, predictive maintenance, or thoughtful design, addressing wear out failure ultimately leads to better products and satisfied customers. As technology continues to advance, the importance of managing wear out failure will only grow, making it an essential consideration in engineering practices.

在工程和制造领域，术语磨损失效指的是由于长期使用而导致组件或系统的退化。这种现象发生在材料随着时间的推移失去其结构完整性，最终导致故障或完全崩溃。理解磨损失效对于工程师和设计师至关重要，因为它直接影响产品的可靠性和寿命。例如，考虑一个简单的机械装置，如自行车。刹车片与轮圈之间的持续摩擦会随着时间的推移而造成磨损。最终，刹车片会变薄，导致刹车效率下降。这种情况很好地说明了磨损失效，即组件因反复受力和使用而失效。为了减轻这种故障，工程师通常会实施维护计划，并使用能够比标准选项更耐磨的高质量材料。此外，磨损失效不仅限于机械设备；在电子元件中也可以观察到。例如，电路中的电容器可能由于热应力和电负荷而退化。随着这些组件的老化，它们存储电荷的能力减弱，这可能导致电路故障。识别电子产品中磨损失效的迹象对于确保电子设备的耐用性和可靠性至关重要。应对磨损失效的一种有效策略是预测性维护。通过分析嵌入机器中的传感器数据，公司可以预测某个组件何时可能出现故障，并在故障之前更换它。这种主动的方法不仅增强了安全性，还减少了停机时间和维修成本。例如，航空公司利用预测性维护确保飞机组件在最佳时机更换，从而防止在飞行过程中出现潜在故障。此外，产品的设计阶段应考虑磨损失效。工程师可以采用冗余技术，即多个组件执行相同的功能。如果一个组件磨损失效，另一个可以接管，确保系统继续平稳运行。这种设计理念在关键系统中很常见，例如航空航天和医疗设备，因为在这些领域，故障可能会产生严重后果。总之，理解磨损失效对于任何参与产品设计、制造或维护的人来说都是至关重要的。通过认识导致这种类型故障的因素，专业人士可以实施策略以增强耐用性和可靠性。无论是通过改进材料、预测性维护还是深思熟虑的设计，解决磨损失效最终将导致更好的产品和客户满意度。随着技术的不断进步，管理磨损失效的重要性只会增加，使其成为工程实践中的一个重要考虑因素。