element break-down accident
简明释义
元件破损事故
英英释义
例句
1.Safety protocols were triggered after an element break-down accident in the chemical plant.
在化工厂发生元件故障事故后,安全协议被触发。
2.The maintenance team is investigating the cause of the element break-down accident that occurred last night.
维修团队正在调查昨晚发生的元件故障事故的原因。
3.The factory had to shut down production due to an element break-down accident in one of the assembly lines.
由于一个装配线发生了元件故障事故,工厂不得不停止生产。
4.During the routine inspection, we discovered an element break-down accident in the electrical system.
在例行检查中,我们发现电气系统出现了一个元件故障事故。
5.The engineer reported an element break-down accident that caused the machinery to halt unexpectedly.
工程师报告了一个元件故障事故,导致机器意外停工。
作文
In modern society, we rely heavily on various systems and technologies to ensure our daily lives run smoothly. However, the complexity of these systems can sometimes lead to unforeseen issues, one of which is known as an element break-down accident. An element break-down accident refers to a failure in a specific component or element of a system that results in a significant disruption or malfunction. Understanding the implications and causes of such accidents is crucial for improving safety and efficiency across different industries.For instance, consider the aviation industry, where the safety of passengers relies on the flawless operation of numerous elements, including engines, navigation systems, and communication devices. If any single element fails—say, an engine experiences a malfunction due to a manufacturing defect or inadequate maintenance—this could result in an element break-down accident, potentially leading to catastrophic consequences. Therefore, rigorous checks and balances are essential to identify and rectify any weaknesses within these elements before they lead to failures.Similarly, in the realm of manufacturing, an element break-down accident can occur if a critical machine or tool breaks down during production. This not only halts the manufacturing process but may also cause financial losses and delays in product delivery. Companies must invest in regular maintenance and upgrades to prevent such breakdowns, ensuring that all elements of their production line function seamlessly.Moreover, the concept of an element break-down accident extends beyond mechanical systems. In software development, for instance, a bug in a particular module can lead to a system-wide failure, disrupting services for users and causing a loss of trust in the software provider. Developers must adopt thorough testing protocols to catch potential issues within individual elements of the code before they escalate into larger problems.The implications of an element break-down accident are vast and can affect not only the immediate stakeholders but also the broader community. For example, if a power grid experiences an element break-down accident due to a failure in its infrastructure, it can lead to widespread blackouts, impacting homes, businesses, and essential services like hospitals. This highlights the importance of proactive measures in identifying vulnerable elements and reinforcing them against potential failures.In conclusion, an element break-down accident serves as a reminder of the interconnectedness of various systems in our modern world. By understanding the potential risks associated with individual elements, we can take steps to mitigate these risks and enhance the reliability of our systems. Whether in aviation, manufacturing, software development, or infrastructure, prioritizing the integrity of each element is essential for preventing accidents and ensuring smooth operations. As technology continues to evolve, so too must our strategies for managing and safeguarding the elements that keep our society functioning effectively.
在现代社会中,我们在日常生活中高度依赖各种系统和技术,以确保其顺利运行。然而,这些系统的复杂性有时会导致意想不到的问题,其中之一被称为元素故障事故。元素故障事故是指系统中特定组件或元素的故障,导致重大干扰或故障。理解此类事故的影响和原因对于提高各行业的安全性和效率至关重要。例如,考虑航空业,乘客的安全依赖于众多元素的完美运作,包括发动机、导航系统和通信设备。如果任何单一元素发生故障——例如,发动机因制造缺陷或维护不足而出现故障——这可能导致元素故障事故,并可能导致灾难性后果。因此,严格的检查和平衡对于识别和纠正这些元素中的任何弱点至关重要,以防止它们导致故障。同样,在制造领域,如果生产过程中关键机器或工具发生故障,可能会发生元素故障事故。这不仅会停止生产过程,还可能导致财务损失和产品交付延迟。公司必须投资于定期维护和升级,以防止此类故障,确保生产线的所有元素无缝运行。此外,元素故障事故的概念超越了机械系统。在软件开发中,例如,某个模块中的错误可能导致系统范围内的故障,干扰用户服务,并导致对软件提供商的信任丧失。开发人员必须采用彻底的测试协议,以在潜在问题在单个代码元素中升级为更大问题之前捕获它们。元素故障事故的影响是广泛的,可能影响不仅仅是直接利益相关者,还有更广泛的社区。例如,如果电网由于基础设施故障而发生元素故障事故,可能会导致大规模停电,影响家庭、企业和医院等基本服务。这突显了主动识别脆弱元素并增强其抵御潜在故障能力的重要性。总之,元素故障事故提醒我们现代世界中各种系统的相互关联性。通过理解与单个元素相关的潜在风险,我们可以采取措施减轻这些风险,并增强系统的可靠性。无论是在航空、制造、软件开发还是基础设施领域,优先考虑每个元素的完整性对于防止事故和确保顺利运营至关重要。随着技术的不断发展,我们管理和保护维持社会有效运作的元素的策略也必须不断演变。
