acceptable failure rate

简明释义

允许故障率

英英释义

例句

1.During a pilot program, the organization established an acceptable failure rate 可接受的失败率 to evaluate the effectiveness of the initiative.

在试点项目期间，组织建立了一个可接受的失败率 acceptable failure rate来评估该倡议的有效性。

2.In software development, teams often set an acceptable failure rate 可接受的失败率 for testing new features to ensure quality.

在软件开发中，团队通常会为测试新功能设定一个可接受的失败率 acceptable failure rate以确保质量。

3.In project management, knowing the acceptable failure rate 可接受的失败率 helps in risk assessment and mitigation strategies.

在项目管理中，了解可接受的失败率 acceptable failure rate有助于风险评估和缓解策略。

4.A startup might have a higher acceptable failure rate 可接受的失败率 due to its experimental nature and rapid iteration cycles.

一家初创公司可能会因为其实验性质和快速迭代周期而有较高的可接受的失败率 acceptable failure rate。

5.Manufacturers must determine the acceptable failure rate 可接受的失败率 for their products to maintain customer satisfaction.

制造商必须确定其产品的可接受的失败率 acceptable failure rate以保持客户满意度。

作文

In the world of engineering and manufacturing, the concept of an acceptable failure rate plays a crucial role in determining the viability and reliability of products. An acceptable failure rate refers to the percentage of failures that can be tolerated in a given system or process without compromising safety, functionality, or overall performance. This concept is particularly important in industries where precision and reliability are paramount, such as aerospace, automotive, and medical devices.To illustrate the significance of an acceptable failure rate, consider the aerospace industry. Aircraft are complex machines that must operate flawlessly to ensure the safety of passengers and crew. Engineers and manufacturers establish a very low acceptable failure rate for critical components, such as engines and navigation systems. For example, if an aircraft engine has a failure rate of one in a million flights, this might be deemed acceptable because the consequences of failure are catastrophic. However, even a seemingly low failure rate can lead to significant scrutiny and demands for improvement, as any failure in this context could result in loss of life.In contrast, less critical systems may have a higher acceptable failure rate. For instance, in consumer electronics, a company might determine that a failure rate of 5% for a non-essential feature is acceptable. This allows them to balance cost and quality while still meeting customer expectations. The key takeaway here is that the acceptable failure rate varies significantly depending on the context and the potential risks involved.Moreover, establishing an acceptable failure rate is not solely about determining what level of failure is tolerable; it also involves implementing strategies to minimize those failures. Quality control processes, rigorous testing, and continuous improvement practices are essential in ensuring that the actual failure rate remains below the established threshold. Companies often use statistical methods to analyze failure rates and make informed decisions about design changes, material selection, and manufacturing processes.The concept of an acceptable failure rate also extends beyond engineering and manufacturing into areas such as software development and project management. In software engineering, teams may adopt an acceptable failure rate for bugs and issues that arise during the development process. Agile methodologies, for instance, embrace the idea that some level of imperfection is acceptable during iterations, as long as the final product meets user needs and quality standards. This approach encourages innovation and adaptability, allowing teams to learn from failures and improve over time.In conclusion, the notion of an acceptable failure rate is essential across various industries and disciplines. It helps organizations set realistic expectations regarding performance and reliability while promoting a culture of continuous improvement. By understanding and managing the acceptable failure rate, companies can enhance their products and services, ultimately leading to greater customer satisfaction and success in the marketplace. As we navigate an increasingly complex world, recognizing the importance of an acceptable failure rate will enable us to innovate responsibly and sustainably.

在工程和制造领域，‘可接受的失败率’这一概念在确定产品的可行性和可靠性方面发挥着至关重要的作用。‘可接受的失败率’是指在不影响安全、功能或整体性能的情况下，可以容忍的失败百分比。这个概念在航空航天、汽车和医疗设备等对精度和可靠性要求极高的行业中尤为重要。为了说明‘可接受的失败率’的重要性，我们可以考虑航空航天工业。飞机是复杂的机器，必须无故障地运行，以确保乘客和机组人员的安全。工程师和制造商为关键组件（如发动机和导航系统）设定了非常低的‘可接受的失败率’。例如，如果一台飞机发动机的失败率为每百万次飞行中有一次，这可能被认为是可接受的，因为失败的后果是灾难性的。然而，即使是看似较低的失败率也会引发重大审查和改进要求，因为在这种情况下，任何失败都可能导致生命损失。相比之下，较不关键的系统可能具有更高的‘可接受的失败率’。例如，在消费电子产品中，一家公司可能会确定某个非核心功能的失败率为5%是可以接受的。这使他们能够在成本和质量之间取得平衡，同时仍然满足客户期望。这里的关键是，‘可接受的失败率’根据上下文和潜在风险的不同而显著变化。此外，建立‘可接受的失败率’不仅仅是确定可以容忍的失败水平；它还涉及实施策略以最小化这些失败。质量控制流程、严格的测试和持续改进实践对于确保实际失败率保持在既定阈值以下至关重要。公司通常使用统计方法来分析失败率，并就设计变更、材料选择和制造过程做出明智的决策。‘可接受的失败率’的概念也延伸到软件开发和项目管理等领域。在软件工程中，团队可能会在开发过程中采用‘可接受的失败率’来处理出现的错误和问题。例如，敏捷方法论接受在迭代过程中某种程度的不完美是可以接受的，只要最终产品满足用户需求和质量标准。这种方法鼓励创新和适应性，使团队能够从失败中学习并不断改进。总之，‘可接受的失败率’的概念在各个行业和学科中都是至关重要的。它帮助组织设定有关性能和可靠性的现实期望，同时促进持续改进的文化。通过理解和管理‘可接受的失败率’，公司可以提升其产品和服务，从而最终提高客户满意度和市场成功。随着我们在一个日益复杂的世界中前行，认识到‘可接受的失败率’的重要性将使我们能够负责任和可持续地进行创新。