fail-safe design
简明释义
故障安全设计
英英释义
例句
1.In aviation, fail-safe design is critical to prevent accidents during flight.
在航空领域,安全失效设计对防止飞行事故至关重要。
2.Our manufacturing process includes fail-safe design features to minimize risks in the production line.
我们的制造过程包括安全失效设计功能,以最小化生产线中的风险。
3.The software was developed with a fail-safe design to avoid data loss during unexpected shutdowns.
该软件采用了安全失效设计,以避免在意外关闭期间丢失数据。
4.The new elevator system incorporates fail-safe design to ensure that it stops safely in case of a power failure.
新的电梯系统采用了安全失效设计,以确保在停电的情况下安全停靠。
5.The car's braking system uses fail-safe design to ensure that it can stop even if the primary system fails.
汽车的制动系统采用了安全失效设计,以确保即使主系统故障也能停车。
作文
In today's rapidly advancing technological landscape, the concept of fail-safe design is more crucial than ever. fail-safe design refers to a system that is engineered to minimize the risk of failure and ensure safety in the event of an unforeseen malfunction. This principle is widely applied across various industries, including aerospace, automotive, and healthcare, where the stakes are incredibly high. By implementing fail-safe design, engineers can create products and systems that not only meet performance standards but also provide a layer of protection against potential hazards.One of the most prominent examples of fail-safe design can be observed in the aviation industry. Aircraft are equipped with multiple redundant systems that ensure functionality even if one component fails. For instance, commercial airplanes have multiple hydraulic systems that control critical functions such as landing gear and flaps. If one hydraulic system encounters a failure, the others can take over, allowing the pilot to maintain control of the aircraft. This redundancy exemplifies how fail-safe design can save lives by preventing catastrophic failures during flight.Similarly, in the automotive industry, fail-safe design plays a vital role in enhancing vehicle safety. Modern cars are equipped with advanced braking systems that incorporate fail-safe mechanisms. For example, many vehicles feature anti-lock braking systems (ABS) that prevent wheel lock-up during hard braking. If a sensor fails, the system is designed to revert to a basic braking function, ensuring that the driver can still stop the vehicle safely. This type of engineering demonstrates the importance of fail-safe design in protecting drivers and passengers on the road.In the realm of healthcare, fail-safe design is equally significant. Medical devices, such as infusion pumps and ventilators, must be designed with patient safety as a top priority. These devices often include alarms and automatic shut-off features that activate in case of malfunction. For instance, if an infusion pump detects an obstruction in the line, it will automatically stop delivering medication, preventing harm to the patient. This proactive approach to fail-safe design highlights the necessity of safeguarding human life in critical situations.Moreover, the integration of technology into everyday life has made fail-safe design even more relevant. Smart home devices, such as smoke detectors and carbon monoxide alarms, are designed to alert homeowners of dangers. If a smoke detector fails to operate, many models come equipped with backup batteries to ensure they remain functional during power outages. This consideration for potential failures reflects the essence of fail-safe design, as it prioritizes user safety and peace of mind.In conclusion, the significance of fail-safe design cannot be overstated. As technology continues to evolve, the need for systems that prioritize safety and reliability becomes increasingly important. Whether in aviation, automotive, healthcare, or everyday technology, fail-safe design serves as a critical framework for preventing accidents and protecting lives. By embracing this principle, engineers and designers can create a safer world for all.
在当今快速发展的技术环境中,故障安全设计的概念比以往任何时候都更加重要。故障安全设计是指一种系统的工程设计,旨在最小化故障风险,并确保在意外故障发生时的安全性。这个原则广泛应用于航空航天、汽车和医疗保健等各个行业,这些行业的风险极高。通过实施故障安全设计,工程师可以创建不仅符合性能标准而且在潜在危险面前提供保护层的产品和系统。一个最突出的故障安全设计示例可以在航空业中观察到。飞机配备了多个冗余系统,即使某个组件发生故障也能确保功能。例如,商业飞机有多个液压系统来控制着陆装置和襟翼等关键功能。如果一个液压系统出现故障,其他系统可以接管,允许飞行员保持对飞机的控制。这种冗余性展示了故障安全设计如何通过防止飞行中的灾难性故障来拯救生命。同样,在汽车行业,故障安全设计在增强车辆安全性方面发挥着至关重要的作用。现代汽车配备了先进的制动系统,结合了故障安全机制。例如,许多车辆配备了防抱死制动系统(ABS),可以防止在紧急制动时车轮锁死。如果传感器出现故障,系统设计为恢复到基本的制动功能,确保驾驶员仍然可以安全停车。这种工程设计展示了故障安全设计在保护道路上驾驶者和乘客方面的重要性。在医疗保健领域,故障安全设计同样重要。医疗设备,如输液泵和呼吸机,必须以患者安全为首要任务进行设计。这些设备通常包括报警和自动关闭功能,以便在故障发生时激活。例如,如果输液泵检测到管道中的阻塞,它将自动停止给药,防止对患者造成伤害。这种对故障安全设计的主动关注突显了在关键情况下保护人类生命的必要性。此外,技术融入日常生活使得故障安全设计变得更加相关。智能家居设备,如烟雾探测器和一氧化碳警报器,旨在提醒房主潜在的危险。如果烟雾探测器未能正常工作,许多型号配备了备用电池,以确保在停电期间仍能正常工作。这种对潜在故障的考虑反映了故障安全设计的本质,因为它优先考虑用户的安全和安心。总之,故障安全设计的重要性不容低估。随着技术的不断发展,对优先考虑安全性和可靠性的系统的需求变得越来越重要。无论是在航空、汽车、医疗保健还是日常技术中,故障安全设计作为预防事故和保护生命的关键框架。通过接受这一原则,工程师和设计师可以为所有人创造一个更安全的世界。
