residual stability requirement

简明释义

剩余稳性要求

英英释义

例句

1.The residual stability requirement is crucial for ensuring that the bridge can withstand unexpected forces.

对于确保桥梁能够承受意外力量，剩余稳定性要求至关重要。

2.The design of the new aircraft must comply with the residual stability requirement, which ensures safety in case of system failures.

新飞机的设计必须符合剩余稳定性要求，以确保在系统故障时的安全。

3.During the simulation, it was clear that the structure did not meet the residual stability requirement and needed redesign.

在模拟过程中，很明显该结构未满足剩余稳定性要求，需要重新设计。

4.Engineers conducted tests to verify that the vehicle meets the residual stability requirement under various load conditions.

工程师进行了测试，以验证该车辆在不同负载条件下是否满足剩余稳定性要求。

5.Compliance with the residual stability requirement is essential for the certification of marine vessels.

遵守剩余稳定性要求对海洋船舶的认证至关重要。

作文

In the field of engineering and design, particularly in relation to structures and vehicles, understanding the concept of residual stability requirement is crucial. This term refers to the minimum level of stability that must be maintained after a disturbance or failure occurs. For instance, in the context of ships, the residual stability requirement ensures that even if a vessel experiences a significant tilt due to external forces like waves or wind, it still possesses enough stability to prevent capsizing. This principle is not only applicable to maritime engineering but also extends to buildings, aircraft, and various other structures where safety is paramount.The importance of adhering to the residual stability requirement cannot be overstated. Inadequate stability can lead to catastrophic failures, resulting in loss of life and significant economic repercussions. Engineers and designers must conduct thorough analyses to determine the appropriate stability thresholds for their projects. This often involves complex calculations and simulations to predict how structures will behave under different conditions.Moreover, regulatory bodies and standards organizations often mandate compliance with specific residual stability requirements. These regulations are established based on extensive research and historical data, aiming to enhance safety and reliability in engineering practices. For example, in the construction of high-rise buildings, engineers must consider factors such as wind load, seismic activity, and potential structural weaknesses to ensure that the building remains stable even in extreme conditions.In addition to structural integrity, the residual stability requirement also plays a vital role in the operational phase of vehicles. For example, aircraft must be designed to maintain stability during unexpected maneuvers or turbulence. Pilots rely on the aircraft's ability to return to a stable flight path after encountering disturbances. This aspect of design is critical for ensuring passenger safety and overall flight performance.Furthermore, the concept of residual stability requirement is increasingly relevant in the context of sustainability and environmental considerations. As engineers strive to create more resilient structures that can withstand the impacts of climate change, understanding how to maintain stability in the face of natural disasters becomes essential. Structures that meet or exceed these requirements are better equipped to endure extreme weather events, thereby protecting both human life and valuable resources.In conclusion, the residual stability requirement is a fundamental principle that underpins safety and reliability across various engineering disciplines. It serves as a benchmark for assessing the stability of structures and vehicles after disturbances, guiding engineers in their design processes. By prioritizing this requirement, we can enhance the resilience of our built environment, ultimately leading to safer and more sustainable communities. As we continue to innovate and develop new technologies, the significance of the residual stability requirement will undoubtedly remain a critical consideration in engineering practices worldwide.

在工程和设计领域，特别是与结构和车辆相关的领域，理解残余稳定性要求的概念至关重要。这个术语指的是在发生干扰或故障后必须保持的最低稳定性水平。例如，在船舶的背景下，残余稳定性要求确保即使船只因外力（如波浪或风）而出现显著倾斜，它仍然具有足够的稳定性以防止倾覆。这个原则不仅适用于海洋工程，还扩展到建筑、飞机和其他各种结构中，在这些领域安全是首要任务。遵守残余稳定性要求的重要性不容小觑。不充分的稳定性可能导致灾难性的失败，造成生命损失和重大的经济影响。工程师和设计师必须进行彻底的分析，以确定其项目的适当稳定性阈值。这通常涉及复杂的计算和模拟，以预测结构在不同条件下的表现。此外，监管机构和标准组织通常要求遵守特定的残余稳定性要求。这些法规是基于广泛的研究和历史数据建立的，旨在增强工程实践的安全性和可靠性。例如，在高层建筑的施工中，工程师必须考虑风载荷、地震活动和潜在的结构弱点，以确保建筑物在极端条件下仍然保持稳定。除了结构完整性，残余稳定性要求在车辆的操作阶段也发挥着重要作用。例如，飞机必须设计成能够在意外机动或颠簸期间保持稳定。飞行员依赖于飞机在遭遇干扰后恢复稳定飞行路径的能力。这一设计方面对确保乘客安全和整体飞行性能至关重要。此外，残余稳定性要求的概念在可持续性和环境考虑的背景下变得越来越相关。随着工程师努力创造出能够承受气候变化影响的更具韧性的结构，理解如何在自然灾害面前保持稳定性变得至关重要。符合或超过这些要求的结构更能抵御极端天气事件，从而保护人类生命和宝贵资源。总之，残余稳定性要求是支撑各个工程学科安全性和可靠性的基本原则。它作为评估结构和车辆在干扰后的稳定性的基准，指导工程师的设计过程。通过优先考虑这一要求，我们可以增强我们建成环境的韧性，最终导致更安全、更可持续的社区。随着我们继续创新和开发新技术，残余稳定性要求的重要性无疑将继续成为全球工程实践中的关键考虑因素。