induced failure

简明释义

诱发故障

英英释义

例句

1.In software testing, an induced failure 诱发故障 can help identify bugs that occur under specific conditions.

在软件测试中，一个induced failure 诱发故障 可以帮助识别在特定条件下出现的错误。

2.During the safety drills, the team simulated an induced failure 诱发故障 in the system to prepare for real-life emergencies.

在安全演练中，团队模拟了系统中的一个induced failure 诱发故障，以为真实紧急情况做好准备。

3.The researchers documented the induced failure 诱发故障 of the prototype under extreme temperatures.

研究人员记录了原型在极端温度下的induced failure 诱发故障。

4.The engineer conducted a test to determine the effects of stress on materials, resulting in an induced failure 诱发故障 when the load exceeded the threshold.

工程师进行了一项测试，以确定应力对材料的影响，当负载超过阈值时，导致了一个induced failure 诱发故障。

5.The experiment aimed to create an induced failure 诱发故障 in the circuit to analyze its response to overload.

实验旨在在电路中制造一个induced failure 诱发故障，以分析其对过载的响应。

作文

In the realm of engineering and technology, the concept of induced failure plays a critical role in understanding how systems respond to various stresses and conditions. Induced failure refers to a failure that occurs as a result of specific actions or conditions being applied to a system. This is particularly important in fields like aerospace, civil engineering, and software development, where the integrity and reliability of structures and systems are paramount.When designing any engineered system, it is essential to anticipate potential failures. Engineers often conduct tests to deliberately induce failures to better understand the limits and weaknesses of their designs. For instance, in aerospace engineering, stress tests may be performed on aircraft components to determine how much force they can withstand before experiencing induced failure. By pushing materials to their breaking points, engineers can gather valuable data that informs future designs and safety measures.The practice of testing for induced failure is not limited to physical structures. In software development, developers may create scenarios where the system is intentionally overloaded or subjected to unexpected inputs. This helps identify vulnerabilities that could lead to system crashes or data loss. By understanding how and when induced failure occurs, developers can implement safeguards and improve the overall robustness of their applications.Moreover, induced failure serves as a crucial learning tool. By studying the conditions that lead to these failures, engineers can develop better predictive models and design more resilient systems. For example, in the automotive industry, crash tests are conducted to observe how vehicles respond to collisions. These tests not only reveal how cars fail under stress but also provide insights into improving safety features, ultimately saving lives.However, it is important to note that while induced failure is a valuable method for testing, it must be approached with caution. Deliberately inducing failure can sometimes lead to unintended consequences, especially if the testing environment does not accurately replicate real-world conditions. Therefore, engineers and developers must carefully plan their tests to ensure that the results are valid and applicable.In conclusion, the concept of induced failure is integral to the fields of engineering and technology. It allows professionals to explore the limits of their designs, improve safety measures, and enhance the reliability of systems. By understanding the causes and effects of induced failure, engineers can create better products that meet the demands of an ever-evolving world. Ultimately, this proactive approach to failure not only leads to advancements in technology but also contributes to the safety and well-being of society as a whole.

在工程和技术领域，‘induced failure’的概念在理解系统如何应对各种压力和条件方面发挥着关键作用。‘induced failure’指的是由于施加特定动作或条件而导致的故障。这在航空航天、土木工程和软件开发等领域尤为重要，因为这些领域对结构和系统的完整性和可靠性要求极高。在设计任何工程系统时，预测潜在故障至关重要。工程师通常会进行测试，故意诱发故障，以更好地了解其设计的极限和弱点。例如，在航空航天工程中，可能会对飞机部件进行压力测试，以确定它们在经历‘induced failure’之前可以承受多少力量。通过将材料推向其断裂点，工程师可以收集到有价值的数据，从而为未来的设计和安全措施提供信息。‘induced failure’的测试不仅限于物理结构。在软件开发中，开发人员可能会创建场景，使系统故意超载或遭受意外输入。这有助于识别可能导致系统崩溃或数据丢失的脆弱性。通过了解何时以及如何发生‘induced failure’，开发人员可以实施保护措施，提高应用程序的整体稳健性。此外，‘induced failure’作为一种重要的学习工具。通过研究导致这些故障的条件，工程师可以开发出更好的预测模型，并设计出更具弹性的系统。例如，在汽车工业中，进行碰撞测试以观察车辆在碰撞中的反应。这些测试不仅揭示了汽车在压力下的失败方式，还提供了改善安全功能的见解，最终拯救生命。然而，重要的是要注意，虽然‘induced failure’是一种有价值的测试方法，但必须谨慎对待。故意诱发故障有时可能导致意想不到的后果，特别是如果测试环境没有准确复制现实世界的条件。因此，工程师和开发人员必须仔细规划他们的测试，以确保结果有效且适用。总之，‘induced failure’的概念对于工程和技术领域至关重要。它使专业人员能够探索设计的极限，改善安全措施，提高系统的可靠性。通过理解‘induced failure’的原因和影响，工程师可以创造出更好的产品，以满足不断发展的世界的需求。最终，这种对故障的主动处理不仅推动了技术进步，还为整个社会的安全和福祉做出了贡献。