mean distance between failure

简明释义

平均故障间隔行程

英英释义

例句

1.The mean distance between failure helps us understand the durability of the components used in our devices.

在我们的设备中，故障间的平均距离帮助我们了解所用组件的耐用性。

2.To enhance performance, we need to reduce the mean distance between failure in our manufacturing process.

为了提高性能，我们需要减少制造过程中故障间的平均距离。

3.The engineering team calculated the mean distance between failure to improve the reliability of the product.

工程团队计算了故障间的平均距离以提高产品的可靠性。

4.In our analysis, the mean distance between failure indicates how often we can expect issues to arise during operation.

在我们的分析中，故障间的平均距离指示我们在操作期间可以预期问题出现的频率。

5.By analyzing the mean distance between failure, we can implement better maintenance schedules.

通过分析故障间的平均距离，我们可以实施更好的维护计划。

作文

In the field of engineering and reliability analysis, the concept of mean distance between failure is crucial for understanding the performance and longevity of systems. This term refers to the average distance or time that a system can operate before experiencing a failure. It is a vital metric that helps engineers and designers assess the reliability of a product or system over its expected lifespan. When designing any machinery or electronic device, one of the primary concerns is how often it will fail and what the implications of those failures are. The mean distance between failure plays a significant role in this assessment. For instance, if a manufacturer knows that a particular engine has a mean distance between failure of 10,000 miles, they can make informed decisions about maintenance schedules, warranty periods, and overall product reliability. This information not only helps in improving the design but also enhances customer satisfaction by reducing unexpected downtimes.Moreover, understanding the mean distance between failure allows companies to allocate resources more effectively. By analyzing failure data, organizations can identify patterns and determine whether certain components are more prone to failure than others. This insight enables them to focus their efforts on improving specific areas of their products, ultimately leading to better performance and lower costs associated with repairs and replacements.The importance of the mean distance between failure extends beyond just the engineering phase; it also plays a critical role in the operational phase of a product's lifecycle. For example, in industries such as aviation or healthcare, where equipment failure can have catastrophic consequences, understanding and maximizing the mean distance between failure is essential. Regular maintenance and timely upgrades based on this metric can save lives and reduce financial losses.In conclusion, the mean distance between failure is a key performance indicator that reflects the reliability of a system. It provides valuable insights into the expected lifespan of products and helps manufacturers make informed decisions regarding design, maintenance, and resource allocation. As technology continues to advance, the ability to accurately predict and improve the mean distance between failure will be increasingly important in ensuring the safety and reliability of various systems across different industries. By focusing on this metric, organizations can enhance their reputation, build customer trust, and ultimately achieve greater success in the marketplace.

在工程和可靠性分析领域，故障间的平均距离这一概念对于理解系统的性能和寿命至关重要。这个术语指的是一个系统在经历故障之前可以正常运行的平均距离或时间。这是一个重要的指标，帮助工程师和设计师评估产品或系统在预期使用寿命内的可靠性。在设计任何机械或电子设备时，主要关注的问题之一是其故障频率及这些故障的影响。故障间的平均距离在这个评估中扮演着重要角色。例如，如果制造商知道某个发动机的故障间的平均距离为10,000英里，他们就可以在维护计划、保修期和整体产品可靠性方面做出明智的决策。这些信息不仅有助于改进设计，还通过减少意外停机时间来提高客户满意度。此外，理解故障间的平均距离使公司能够更有效地分配资源。通过分析故障数据，组织可以识别模式，并确定某些组件是否更容易发生故障。这一洞察力使他们能够集中精力改善产品的特定领域，最终导致更好的性能和更低的维修和更换成本。故障间的平均距离的重要性不仅限于工程阶段；它在产品生命周期的运营阶段也发挥着关键作用。例如，在航空或医疗等行业，设备故障可能会造成灾难性后果，因此理解和最大化故障间的平均距离至关重要。基于这一指标进行定期维护和及时升级可以挽救生命并减少财务损失。总之，故障间的平均距离是一个反映系统可靠性的关键绩效指标。它提供了关于产品预期使用寿命的宝贵见解，并帮助制造商在设计、维护和资源分配方面做出明智的决策。随着技术的不断进步，准确预测和改善故障间的平均距离的能力将变得越来越重要，以确保各行业各种系统的安全性和可靠性。通过关注这一指标，组织可以提升声誉，建立客户信任，并最终在市场上取得更大的成功。