margin of stability
简明释义
稳定性限
英英释义
The margin of stability refers to the range or buffer within which a system can operate safely without losing its balance or integrity. | 稳定边际指的是一个系统可以安全运行而不失去其平衡或完整性的范围或缓冲区。 |
例句
1.The structural integrity of the building was confirmed to have a solid margin of stability against earthquakes.
建筑的结构完整性确认具有坚固的稳定裕度以抵御地震。
2.The engineers designed the bridge with a sufficient margin of stability to withstand high winds.
工程师们设计了这座桥,确保有足够的稳定裕度以抵御强风。
3.In financial markets, investors often seek stocks that have a good margin of stability to minimize risk.
在金融市场上,投资者通常寻找具有良好稳定裕度的股票以降低风险。
4.A company's margin of stability can be assessed by its ability to maintain operations during economic downturns.
公司的稳定裕度可以通过其在经济衰退期间维持运营的能力来评估。
5.The aircraft was tested under various conditions to ensure it had a reliable margin of stability during flight.
该飞机在各种条件下进行了测试,以确保在飞行过程中具有可靠的稳定裕度。
作文
In the realm of engineering and design, the concept of margin of stability plays a crucial role in ensuring safety and functionality. The margin of stability refers to the buffer or safety factor that is built into a system to account for unforeseen circumstances or variations in conditions. This principle is particularly important in fields such as civil engineering, aerospace, and mechanical design, where the consequences of failure can be catastrophic.When designing a bridge, for instance, engineers must consider various forces that will act upon it, such as wind, traffic loads, and seismic activity. The margin of stability in this context would involve calculating the maximum load the bridge can bear while still maintaining structural integrity. By incorporating a significant margin of stability, engineers ensure that even under extreme conditions, the bridge remains safe for use.Similarly, in aerospace engineering, the margin of stability is vital during the design of aircraft. Pilots rely on the stability of their aircraft to maintain control during flight. Engineers must analyze factors such as weight distribution, aerodynamics, and center of gravity to determine the margin of stability. A well-designed aircraft will have a sufficient margin of stability to handle turbulence and other unexpected challenges during flight, thereby ensuring the safety of passengers and crew.The importance of the margin of stability extends beyond engineering; it is also applicable in personal finance and decision-making. Individuals often face various risks in their financial lives, whether it be through investments, savings, or expenditures. A healthy margin of stability in personal finance might involve having an emergency fund that covers several months' worth of expenses. This financial cushion allows individuals to navigate unexpected job losses or medical emergencies without falling into debt.Moreover, the idea of a margin of stability can be applied to mental health and well-being. In our fast-paced world, stress and anxiety are common challenges that many people face. Establishing a margin of stability in one’s mental health could mean developing coping strategies, building a strong support network, and engaging in self-care practices. By doing so, individuals create a buffer against overwhelming stressors, allowing them to maintain their mental health even in difficult times.In conclusion, the concept of margin of stability is fundamental across various domains, from engineering to personal finance and mental health. Understanding and implementing a margin of stability allows individuals and systems to withstand pressures and uncertainties, enhancing safety and resilience. Whether it's ensuring that a bridge can withstand heavy loads, that an aircraft remains controllable during turbulence, or that a person can manage life's stresses, the margin of stability serves as a critical component in achieving success and safety in our endeavors.
在工程和设计领域,稳定裕度的概念在确保安全和功能性方面起着至关重要的作用。稳定裕度是指在系统中建立的缓冲或安全系数,以应对不可预见的情况或条件变化。这个原则在土木工程、航空航天和机械设计等领域尤为重要,因为失败的后果可能是灾难性的。例如,在设计桥梁时,工程师必须考虑作用于桥梁的各种力量,如风、交通负荷和地震活动。在这种情况下,稳定裕度将涉及计算桥梁在保持结构完整性下能够承受的最大负荷。通过引入显著的稳定裕度,工程师确保即使在极端条件下,桥梁仍然安全可用。同样,在航空航天工程中,稳定裕度在飞机设计中至关重要。飞行员依赖于飞机的稳定性来维持飞行中的控制。工程师必须分析重心分布、空气动力学和重心等因素,以确定稳定裕度。设计良好的飞机将具有足够的稳定裕度,以应对飞行中的颠簸和其他意外挑战,从而确保乘客和机组人员的安全。稳定裕度的重要性不仅限于工程;它也适用于个人财务和决策。个人在财务生活中常常面临各种风险,无论是通过投资、储蓄还是支出。健康的稳定裕度在个人财务中可能意味着拥有一个能够覆盖几个月开支的应急基金。这种财务缓冲使个人能够在意外失业或医疗紧急情况下不陷入债务。此外,稳定裕度的概念可以应用于心理健康和幸福感。在这个快节奏的世界中,压力和焦虑是许多人面临的常见挑战。在个人心理健康中建立稳定裕度可能意味着制定应对策略、建立强大的支持网络和参与自我护理实践。通过这样做,个人创造了抵御压倒性压力源的缓冲,使他们能够在困难时期保持心理健康。总之,稳定裕度的概念在各个领域都是基础,从工程到个人财务和心理健康。理解和实施稳定裕度使个人和系统能够承受压力和不确定性,提高安全性和韧性。无论是确保桥梁能够承受重载,飞机在颠簸中保持可控,还是个人能够管理生活的压力,稳定裕度都是实现我们努力成功和安全的关键组成部分。
相关单词
