failure limit

简明释义

破坏极限

英英释义

例句

1.Manufacturers often specify the failure limit in their product guidelines.

制造商通常在其产品指南中指定失效极限。

2.In testing, we found that the failure limit of the circuit was lower than expected.

在测试中，我们发现电路的失效极限低于预期。

3.Understanding the failure limit of a bridge is crucial for its safety assessments.

了解桥梁的失效极限对其安全评估至关重要。

4.The engineer calculated the failure limit of the material to ensure it could withstand heavy loads.

工程师计算了材料的失效极限，以确保它能够承受重负荷。

5.The failure limit of the software was tested under extreme conditions.

该软件的失效极限在极端条件下进行了测试。

作文

In the realm of engineering and materials science, the concept of failure limit plays a crucial role in determining the safety and reliability of structures and components. The failure limit refers to the maximum stress or load that a material or structure can withstand before it fails or experiences significant deformation. Understanding this limit is essential for engineers when designing buildings, bridges, and other infrastructure that must endure various forces throughout their lifespan.To illustrate the importance of the failure limit, consider the construction of a bridge. Engineers must calculate the expected loads that the bridge will face, including the weight of vehicles, pedestrians, and environmental factors such as wind and earthquakes. By knowing the failure limit of the materials used in the bridge's construction, they can ensure that the structure is designed to safely support these loads without risking catastrophic failure.Moreover, the failure limit is not static; it can vary depending on several factors, including temperature, humidity, and the presence of flaws or defects in the material. For instance, a steel beam may have a certain failure limit at room temperature, but if exposed to extreme heat, its strength could diminish, leading to a lower threshold for failure. This variability necessitates rigorous testing and analysis during the material selection process and throughout the lifespan of the structure.In addition to engineering applications, the concept of failure limit can also be applied to personal growth and resilience. Just as materials have limits to the stress they can endure, individuals also have their own failure limit when it comes to emotional and psychological challenges. Recognizing these limits is vital for maintaining mental health and well-being.For example, during times of high stress—such as a demanding job or personal crises—people may reach their failure limit, leading to burnout or anxiety. It is essential for individuals to understand their own thresholds and to seek help or take breaks when necessary. Just as engineers design structures with safety margins, individuals should also implement strategies to manage stress and prevent reaching their failure limit. This can include practicing mindfulness, engaging in physical activity, and maintaining a supportive social network.Ultimately, whether in engineering or personal development, understanding the failure limit is key to ensuring safety, stability, and growth. By recognizing the limits of materials and ourselves, we can make informed decisions that lead to better outcomes. Engineers can create safer structures, while individuals can foster healthier lives. In both cases, awareness of the failure limit empowers us to push boundaries responsibly and sustainably, ensuring that we do not exceed what we can handle, whether it be in our careers or in our daily lives.

在工程和材料科学领域，failure limit（失效极限）的概念在确定结构和组件的安全性和可靠性方面发挥着至关重要的作用。failure limit指的是材料或结构在发生故障或经历显著变形之前能够承受的最大应力或负载。理解这一极限对于工程师在设计建筑、桥梁和其他基础设施时至关重要，因为这些结构必须在其生命周期内承受各种力量。为了说明failure limit的重要性，可以考虑桥梁的建设。工程师必须计算桥梁将面临的预期负载，包括车辆、行人以及风和地震等环境因素的重量。通过了解用于桥梁建造的材料的failure limit，他们可以确保结构的设计能够安全地支持这些负载，而不会冒着灾难性故障的风险。此外，failure limit并不是静态的；它可能会因多个因素而异，包括温度、湿度以及材料中缺陷或瑕疵的存在。例如，一根钢梁在室温下可能具有一定的failure limit，但如果暴露于极端高温，其强度可能会降低，从而导致失效的阈值降低。这种变化性要求在材料选择过程中以及结构的整个生命周期中进行严格的测试和分析。除了工程应用外，failure limit的概念也可以应用于个人成长和韧性。正如材料有其能够承受的压力极限一样，个人在面对情感和心理挑战时也有自己的failure limit。认识到这些极限对于保持心理健康和幸福至关重要。例如，在高压时期——如繁重的工作或个人危机——人们可能会达到他们的failure limit，导致疲惫或焦虑。个人理解自己阈值的重要性，以及在必要时寻求帮助或休息至关重要。就像工程师设计具有安全余量的结构一样，个人也应实施策略来管理压力，防止达到他们的failure limit。这可以包括练习正念、参与体育活动以及维持支持性的社交网络。最终，无论是在工程还是个人发展中，理解failure limit都是确保安全、稳定和增长的关键。通过认识材料和我们自身的极限，我们可以做出明智的决策，从而获得更好的结果。工程师可以创造更安全的结构，而个人可以培养更健康的生活。在这两种情况下，对failure limit的意识使我们能够负责任和可持续地推动边界，确保我们不会超过自己能够承受的范围，无论是在职业生涯中还是在日常生活中。