mean time of no failure operation

简明释义

平均无故障工作时间

英英释义

例句

1.Our goal is to achieve a mean time of no failure operation of at least 1000 hours.

我们的目标是实现至少1000小时的无故障操作的平均时间。

2.To improve safety, we need to increase the mean time of no failure operation for our production line.

为了提高安全性，我们需要增加生产线的无故障操作的平均时间。

3.By analyzing the mean time of no failure operation, we identified potential areas for improvement.

通过分析无故障操作的平均时间，我们识别出了潜在的改进领域。

4.The engineering report highlighted the mean time of no failure operation as a key performance indicator.

工程报告强调了无故障操作的平均时间作为关键绩效指标。

5.The team calculated the mean time of no failure operation to assess the reliability of the new machinery.

团队计算了无故障操作的平均时间以评估新机器的可靠性。

作文

In the world of engineering and technology, the reliability of systems is paramount. One of the key metrics used to evaluate the performance and dependability of a system is the mean time of no failure operation. This term refers to the average duration that a system can operate without experiencing any failures or malfunctions. Understanding this concept is crucial for engineers, managers, and stakeholders who aim to enhance the efficiency and longevity of their systems.The mean time of no failure operation (MTNFO) serves as a benchmark for assessing how well a system performs under normal operating conditions. It allows organizations to predict the performance of their equipment and identify potential weaknesses. By analyzing historical data, engineers can calculate the MTNFO, which helps in planning maintenance schedules, improving design processes, and ensuring that safety standards are met.For instance, consider a manufacturing plant that relies on heavy machinery for production. If the MTNFO of a critical piece of equipment is low, it indicates that the machine is prone to breakdowns, which can lead to costly downtime and reduced productivity. In such cases, the management team may decide to invest in upgrades or implement more rigorous maintenance protocols to improve the machine's reliability. The goal is to extend the mean time of no failure operation, thereby minimizing interruptions and maximizing output.Moreover, the significance of the mean time of no failure operation extends beyond mere statistics; it embodies a philosophy of proactive management. Organizations that prioritize improving their MTNFO typically adopt a culture of continuous improvement. This involves regularly reviewing operational processes, investing in employee training, and utilizing advanced technologies to monitor equipment performance in real-time.In addition, the MTNFO is not only relevant in manufacturing but also plays a vital role in sectors such as aerospace, automotive, and healthcare. For example, in aviation, the MTNFO of an aircraft's systems is critical to ensuring passenger safety. Airlines meticulously track the performance of their fleets to ensure that they meet stringent safety regulations. A higher MTNFO indicates that the aircraft can operate longer without issues, thus enhancing overall safety and reliability.Furthermore, understanding the mean time of no failure operation is essential for risk management. By knowing how long a system can function without failure, organizations can better prepare for unexpected events. This knowledge enables them to develop contingency plans and allocate resources effectively in case of emergencies.In conclusion, the mean time of no failure operation is a fundamental concept that reflects the reliability and efficiency of systems across various industries. It serves as a critical performance indicator that guides decision-making and strategic planning. By focusing on improving MTNFO, organizations can enhance their operational resilience, reduce costs, and ultimately provide better services to their customers. As technology continues to evolve, the importance of understanding and optimizing the mean time of no failure operation will only grow, making it an essential aspect of modern engineering and management practices.

在工程和技术的世界中，系统的可靠性至关重要。评估系统性能和可靠性的关键指标之一是无故障操作的平均时间。这个术语指的是系统在没有发生任何故障或故障的情况下可以运行的平均持续时间。理解这一概念对工程师、管理人员和利益相关者至关重要，他们旨在提高系统的效率和寿命。无故障操作的平均时间（MTNFO）作为评估系统在正常操作条件下表现的基准。它使组织能够预测其设备的性能并识别潜在的弱点。通过分析历史数据，工程师可以计算MTNFO，这有助于规划维护时间表、改善设计流程，并确保满足安全标准。例如，考虑一个依赖重型机械进行生产的制造工厂。如果一台关键设备的MTNFO较低，这表明该机器容易发生故障，这可能导致昂贵的停机时间和生产力下降。在这种情况下，管理团队可能决定投资升级或实施更严格的维护协议，以提高机器的可靠性。目标是延长无故障操作的平均时间，从而最小化中断并最大化产出。此外，无故障操作的平均时间的重要性不仅仅体现在统计数据上；它体现了一种主动管理的理念。优先提高MTNFO的组织通常会采纳持续改进的文化。这涉及定期审查操作流程、投资员工培训以及利用先进技术实时监控设备性能。此外，MTNFO不仅在制造业中相关，还在航空航天、汽车和医疗等领域发挥着重要作用。例如，在航空领域，飞机系统的MTNFO对确保乘客安全至关重要。航空公司仔细跟踪其机队的性能，以确保满足严格的安全法规。较高的MTNFO表明飞机可以在没有问题的情况下运行更长时间，从而增强整体安全性和可靠性。此外，了解无故障操作的平均时间对于风险管理至关重要。通过了解系统可以在没有故障的情况下运行多长时间，组织可以更好地为意外事件做好准备。这一知识使他们能够制定应急计划并有效分配资源，以应对紧急情况。总之，无故障操作的平均时间是一个基本概念，反映了各行业系统的可靠性和效率。它作为一个关键的性能指标，指导决策和战略规划。通过专注于提高MTNFO，组织可以增强其运营韧性、降低成本，并最终为客户提供更好的服务。随着技术的不断发展，理解和优化无故障操作的平均时间的重要性只会增加，使其成为现代工程和管理实践的一个重要方面。