failure to actuate

简明释义

不动作

英英释义

例句

1.The technician reported a failure to actuate the hydraulic system, leading to a delay in operations.

技术人员报告液压系统未能启动，导致操作延迟。

2.A failure to actuate the ignition system resulted in the engine not starting.

点火系统未能启动导致发动机无法启动。

3.During the test, a failure to actuate the control panel was noted, which affected the overall performance.

测试期间注意到控制面板未能启动，这影响了整体性能。

4.In the event of a failure to actuate the emergency brakes, the train could not stop in time.

如果未能启动紧急刹车，火车将无法及时停车。

5.The machine malfunctioned due to a failure to actuate the safety switch, causing a risk of injury.

由于未能启动安全开关，机器发生故障，导致受伤风险。

作文

In the complex world of engineering and automation, the term failure to actuate refers to a situation where a device or system fails to perform its intended action or response. This can occur in various contexts, such as machinery, robotics, or even software applications. Understanding the implications of failure to actuate is crucial for engineers and technicians, as it can lead to significant operational inefficiencies and safety hazards.For instance, consider an automated assembly line in a manufacturing plant. Each robotic arm is programmed to perform specific tasks, such as picking up components, assembling them, and moving finished products to the next station. If one of these robotic arms experiences a failure to actuate, it may not pick up a component as scheduled, leading to a bottleneck in production. The ripple effect of this failure can halt the entire assembly line, causing delays and increasing operational costs.Moreover, the consequences of failure to actuate extend beyond mere production delays. In industries where precision is paramount, such as aerospace or medical devices, a failure in actuation can result in catastrophic outcomes. For example, if a critical component of an aircraft fails to actuate due to a malfunction, it could compromise the safety of the flight, endangering passengers and crew. Similarly, in medical devices, a failure to actuate could prevent life-saving interventions from being executed, with dire consequences for patients.To mitigate the risks associated with failure to actuate, engineers must implement rigorous testing and quality control measures throughout the design and manufacturing processes. This includes performing simulations to identify potential points of failure and conducting regular maintenance checks on equipment to ensure all systems are functioning correctly. Additionally, incorporating redundancy into critical systems can provide a safeguard against failure to actuate, ensuring that if one component fails, another can take over its function.Furthermore, training personnel to recognize the signs of potential failure to actuate can be invaluable. Operators should be educated on the importance of monitoring system performance and understanding how to troubleshoot issues effectively. By fostering a culture of awareness and proactive problem-solving, organizations can significantly reduce the likelihood of experiencing failure to actuate incidents.In conclusion, the concept of failure to actuate plays a vital role in engineering and automation. Its implications can range from minor production delays to severe safety risks, depending on the context in which it occurs. By understanding the causes and consequences of this failure, and by implementing effective preventive measures, industries can enhance their operational efficiency and ensure the safety of their systems. Ultimately, addressing failure to actuate is not just a technical challenge; it is a critical component of responsible engineering practice that prioritizes both performance and safety.

在工程和自动化的复杂世界中，术语failure to actuate指的是设备或系统未能执行其预期动作或响应的情况。这种情况可以发生在各种环境中，例如机械、机器人甚至软件应用。理解failure to actuate的含义对于工程师和技术人员至关重要，因为这可能导致显著的操作效率低下和安全隐患。例如，考虑一家制造工厂中的自动化装配线。每个机器人臂被编程执行特定任务，例如拾取组件、组装它们并将成品移动到下一个站点。如果其中一个机器人臂由于某种故障而发生failure to actuate，它可能无法按计划拾取组件，从而导致生产瓶颈。这一失败的连锁反应可能会使整个装配线停滞，造成延误并增加运营成本。此外，failure to actuate的后果不仅仅是生产延误。在精确度至关重要的行业，如航空航天或医疗设备，执行失败可能导致灾难性的结果。例如，如果飞机的关键组件因故障未能激活，这可能会危及飞行的安全，危及乘客和机组人员。同样，在医疗设备中，failure to actuate可能会阻止生命救助干预的实施，对患者造成严重后果。为了降低与failure to actuate相关的风险，工程师必须在设计和制造过程中实施严格的测试和质量控制措施。这包括进行模拟以识别潜在的故障点，并定期对设备进行维护检查，以确保所有系统正常运行。此外，在关键系统中加入冗余设计可以为failure to actuate提供保障，确保如果一个组件故障，另一个组件可以接替其功能。此外，培训人员识别潜在failure to actuate迹象也是非常宝贵的。操作员应接受有关监控系统性能重要性和有效排除故障的方法的教育。通过培养意识和主动解决问题的文化，组织可以显著降低发生failure to actuate事件的可能性。总之，failure to actuate的概念在工程和自动化中扮演着重要角色。根据其发生的背景，其影响范围可以从轻微的生产延迟到严重的安全风险。通过理解这种故障的原因和后果，并实施有效的预防措施，各行业可以提高运营效率，确保其系统的安全性。最终，解决failure to actuate不仅仅是一个技术挑战；它是负责任的工程实践的关键组成部分，优先考虑性能和安全。