mean time to failure

简明释义

平均故障间隔时间

英英释义

例句

1.The engineering team calculated the mean time to failure 平均故障时间 for the new product to ensure reliability.

工程团队计算了新产品的mean time to failure 平均故障时间以确保可靠性。

2.A lower mean time to failure 平均故障时间 indicates a more reliable system in our latest software update.

较低的mean time to failure 平均故障时间表明我们最新软件更新中的系统更加可靠。

3.During the testing phase, we observed a mean time to failure 平均故障时间 of 500 hours for the new machinery.

在测试阶段，我们观察到新机械的mean time to failure 平均故障时间为500小时。

4.The mean time to failure 平均故障时间 is a critical metric for assessing the durability of electronic components.

对于评估电子元件的耐用性，mean time to failure 平均故障时间是一个关键指标。

5.To improve customer satisfaction, the company aims to increase the mean time to failure 平均故障时间 of their devices.

为了提高客户满意度，公司旨在增加其设备的mean time to failure 平均故障时间。

作文

In today's rapidly advancing technological landscape, the concept of reliability has become increasingly important. One key metric used to assess the reliability of systems and components is the mean time to failure, often abbreviated as MTTF. This term refers to the average time that a system or component operates before it fails. Understanding mean time to failure is crucial for engineers, manufacturers, and consumers alike, as it provides insights into the expected lifespan and reliability of products.The significance of mean time to failure can be observed in various industries, including electronics, aerospace, and automotive. For instance, in the field of electronics, manufacturers strive to design devices with a high MTTF to ensure customer satisfaction and reduce warranty costs. A higher mean time to failure indicates that the product is likely to function properly for an extended period, which is a desirable quality for consumers who rely on these devices in their daily lives.Moreover, understanding the mean time to failure helps organizations plan for maintenance and replacement schedules. By analyzing historical data of similar systems, companies can predict when a component is likely to fail and take proactive measures to avoid unexpected downtimes. This predictive maintenance approach not only saves costs but also enhances operational efficiency.In addition to its practical applications, the concept of mean time to failure also highlights the importance of rigorous testing and quality assurance processes in product development. Manufacturers often conduct extensive testing to determine the MTTF of their products under various conditions. This testing phase is essential to identify potential weaknesses and improve the overall design, ultimately leading to more reliable products.However, it is important to note that mean time to failure is just one aspect of reliability. Other metrics, such as mean time between failures (MTBF) and mean time to repair (MTTR), also play significant roles in evaluating the performance of systems. While MTTF focuses solely on the time until the first failure, MTBF considers the time between subsequent failures, and MTTR measures how long it takes to repair a failed component. Together, these metrics provide a comprehensive view of a system's reliability and help organizations make informed decisions regarding their operations.In conclusion, the mean time to failure is a vital measure of reliability that affects various aspects of product design, maintenance, and customer satisfaction. By understanding and applying this concept, businesses can enhance the quality of their products, optimize maintenance strategies, and ultimately improve their bottom line. As technology continues to evolve, the emphasis on reliability and the importance of metrics like mean time to failure will only grow, making it essential for professionals across all industries to grasp this fundamental principle.

在当今快速发展的技术环境中，可靠性的概念变得越来越重要。用于评估系统和组件可靠性的一个关键指标是平均故障时间，通常缩写为MTTF。这个术语指的是系统或组件在发生故障之前的平均运行时间。理解平均故障时间对工程师、制造商和消费者来说至关重要，因为它提供了关于产品预期寿命和可靠性的见解。平均故障时间的重要性可以在各个行业中观察到，包括电子、航空航天和汽车。例如，在电子领域，制造商努力设计出具有高MTTF的设备，以确保客户满意度并降低保修成本。较高的平均故障时间表示产品在较长时间内可能正常运行，这是消费者在日常生活中依赖这些设备时所希望的品质。此外，理解平均故障时间有助于组织规划维护和更换日程。通过分析类似系统的历史数据，公司可以预测组件何时可能会故障，并采取主动措施以避免意外停机。这种预测性维护方法不仅节省了成本，还提高了运营效率。除了其实际应用外，平均故障时间的概念还突显了在产品开发中严格测试和质量保证过程的重要性。制造商通常会进行广泛的测试，以确定其产品在各种条件下的MTTF。这个测试阶段对于识别潜在弱点和改善整体设计至关重要，最终导致更可靠的产品。然而，需要注意的是，平均故障时间只是可靠性的一个方面。其他指标，如平均故障间隔时间（MTBF）和平均修复时间（MTTR），在评估系统性能方面也起着重要作用。虽然MTTF仅关注第一次故障之前的时间，但MTBF考虑了后续故障之间的时间，而MTTR则测量修复故障组件所需的时间。这些指标共同提供了系统可靠性的全面视图，并帮助组织做出明智的运营决策。总之，平均故障时间是一个重要的可靠性指标，影响产品设计、维护和客户满意度的各个方面。通过理解和应用这一概念，企业可以提高产品质量、优化维护策略，并最终改善其利润。在技术不断发展的过程中，对可靠性的重视以及像平均故障时间这样的指标的重要性只会增加，使得各行业的专业人士掌握这一基本原则变得至关重要。