mean time between overhaul

简明释义

平均大修间隔时间大修平均间隔时间

英英释义

例句

1.Our new model has a mean time between overhaul that exceeds industry standards.

我们的新型号的平均大修间隔时间超过了行业标准。

2.The mean time between overhaul is crucial for planning maintenance schedules.

对于计划维护日程，平均大修间隔时间至关重要。

3.Reducing the mean time between overhaul can significantly lower operational costs.

减少平均大修间隔时间可以显著降低运营成本。

4.To improve reliability, we need to analyze the mean time between overhaul for our engines.

为了提高可靠性，我们需要分析我们发动机的平均大修间隔时间。

5.The aircraft maintenance team reported a mean time between overhaul of 5,000 flight hours.

飞机维修团队报告的平均大修间隔时间为5000飞行小时。

作文

In the world of engineering and maintenance, the term mean time between overhaul is crucial for understanding the reliability and performance of machinery. This metric, often abbreviated as MTBO, represents the average time interval between major overhauls of equipment or systems. Overhauls are significant maintenance activities that involve disassembling a machine, inspecting its components, replacing worn parts, and reassembling it to restore its functionality. The mean time between overhaul provides valuable insights into how often such extensive maintenance is required, which can be critical for planning and operational efficiency.Understanding the mean time between overhaul is essential for industries that rely heavily on machinery, such as aviation, manufacturing, and transportation. For instance, in the aviation sector, knowing the MTBO of an aircraft engine helps airlines schedule maintenance without compromising safety. If an airline knows that the average time before an engine requires an overhaul is 5,000 flight hours, they can plan their operations accordingly, ensuring that engines are serviced at the right intervals to avoid unexpected failures.Moreover, the mean time between overhaul plays a significant role in cost management. Frequent overhauls can lead to increased downtime and higher maintenance costs. By analyzing the MTBO, companies can make informed decisions about investing in new technology or upgrading existing systems to improve reliability. If a piece of equipment has a low MTBO, it may indicate that it is not performing optimally or that it is nearing the end of its useful life. In such cases, businesses might consider replacing it with more reliable alternatives.In addition to its practical applications, the mean time between overhaul also serves as a benchmark for comparing different types of equipment. When evaluating new machinery or systems, organizations can look at the MTBO to determine which option offers better reliability and lower maintenance needs. This comparison can be especially important when making large capital investments where long-term performance is a key consideration.Furthermore, the concept of mean time between overhaul is intertwined with other reliability metrics, such as mean time to repair (MTTR) and mean time between failures (MTBF). While MTBO focuses on the time between major maintenance events, MTTR measures the average time it takes to repair a system after a failure, and MTBF looks at the average time between failures. Together, these metrics provide a comprehensive view of a system's reliability and help organizations develop effective maintenance strategies.In conclusion, the mean time between overhaul is a vital metric that influences maintenance planning, cost management, and equipment reliability across various industries. By understanding and applying this concept, organizations can enhance their operational efficiency, reduce costs, and ensure the safety and reliability of their machinery. As industries continue to evolve and adopt new technologies, the importance of the MTBO will only grow, making it essential for engineers and managers to stay informed about this critical aspect of maintenance and reliability engineering.

在工程和维护的世界中，术语平均大修时间对于理解机器的可靠性和性能至关重要。这个指标，通常缩写为MTBO，表示设备或系统进行重大大修之间的平均时间间隔。大修是涉及拆卸机器、检查其组件、更换磨损部件并重新组装以恢复其功能的重要维护活动。平均大修时间提供了关于此类广泛维护需要多频繁进行的宝贵见解，这对于规划和运营效率至关重要。理解平均大修时间对于依赖机器的行业至关重要，例如航空、制造和运输。例如，在航空部门，了解飞机发动机的MTBO可以帮助航空公司安排维护，而不影响安全。如果一家航空公司知道发动机在大修前的平均时间为5000飞行小时，他们可以相应地计划其运营，确保发动机在正确的间隔内进行服务，以避免意外故障。此外，平均大修时间在成本管理中也发挥着重要作用。频繁的大修可能导致增加的停机时间和更高的维护成本。通过分析MTBO，公司可以就投资新技术或升级现有系统以提高可靠性做出明智的决定。如果一台设备的MTBO较低，这可能表明它的性能不佳或接近其使用寿命的终点。在这种情况下，企业可能会考虑用更可靠的替代品来替换它。除了实际应用，平均大修时间还作为比较不同类型设备的基准。当评估新机械或系统时，组织可以查看MTBO，以确定哪个选项提供更好的可靠性和更低的维护需求。这种比较在进行大额资本投资时尤其重要，因为长期性能是关键考虑因素。此外，平均大修时间的概念与其他可靠性指标交织在一起，例如平均修复时间（MTTR）和平均故障间隔时间（MTBF）。虽然MTBO专注于重大维护事件之间的时间，但MTTR测量系统在发生故障后修复所需的平均时间，而MTBF则关注故障之间的平均时间。这些指标共同提供了系统可靠性的全面视图，并帮助组织制定有效的维护策略。总之，平均大修时间是一个重要的指标，影响着各个行业的维护规划、成本管理和设备可靠性。通过理解和应用这一概念，组织可以增强运营效率、降低成本，并确保其机械的安全性和可靠性。随着行业的不断发展和新技术的采用，MTBO的重要性只会增加，因此工程师和管理者必须了解这一维护和可靠性工程的关键方面。