residual stability standard

简明释义

剩余稳性标准

英英释义

例句

1.The residual stability standard is crucial for preventing capsizing in rough seas.

在恶劣海况下，残余稳定性标准对于防止翻船至关重要。

2.To enhance safety, the yacht was modified to exceed the residual stability standard for recreational boats.

为了增强安全性，这艘游艇经过改装，超出了休闲船只的残余稳定性标准。

3.The ship was designed to meet the residual stability standard, ensuring it remains upright even after taking on water.

这艘船的设计符合残余稳定性标准，确保即使进水后也能保持直立。

4.Before launching, the crew conducted tests to ensure compliance with the residual stability standard.

在发射之前，船员进行了测试，以确保符合残余稳定性标准。

5.During the inspection, the engineers confirmed that the vessel adhered to the residual stability standard set by maritime authorities.

在检查过程中，工程师确认该船符合海事当局设定的残余稳定性标准。

作文

In the realm of engineering and design, particularly in fields such as structural engineering and aerospace, the concept of stability is paramount. One important aspect of this stability is encapsulated in the term residual stability standard, which refers to the minimum acceptable level of stability that a structure or vehicle must maintain after experiencing certain disturbances or changes in loading conditions. Understanding this standard is critical for ensuring safety and reliability in various applications.The residual stability standard serves as a benchmark for engineers when designing structures and vehicles. For instance, in the case of aircraft, it is essential that the aircraft can maintain control and stability even after encountering turbulence or other unexpected forces. If an aircraft does not meet the residual stability standard, it may become difficult to control, potentially leading to catastrophic failures. Therefore, engineers must rigorously test and analyze their designs to ensure compliance with this standard.Similarly, in civil engineering, buildings must be designed to withstand various loads, including wind, earthquakes, and other environmental factors. The residual stability standard helps engineers determine how much load a structure can endure before it becomes unstable. This standard ensures that even after experiencing extreme conditions, the building will remain standing and safe for occupants.The significance of the residual stability standard extends beyond just physical structures. It also plays a crucial role in the development of software systems, particularly those that are safety-critical, such as in automotive or aviation industries. In these contexts, the residual stability standard can relate to the system's ability to maintain functionality and safety after encountering faults or errors. Ensuring that software systems meet this standard is vital for preventing accidents and ensuring user safety.Moreover, the residual stability standard is not static; it evolves with advancements in technology and changes in regulatory requirements. Engineers and designers must stay informed about the latest standards and incorporate them into their work. This ongoing adaptation ensures that new structures and systems not only meet current safety expectations but also anticipate future challenges.In conclusion, the residual stability standard is a fundamental principle that underpins the safety and reliability of various engineering disciplines. Whether in aerospace, civil engineering, or software development, maintaining this standard is essential for protecting lives and ensuring the integrity of structures and systems. As technology continues to advance, the importance of adhering to the residual stability standard will only grow, making it a critical focus for engineers and designers around the world.

在工程和设计领域，尤其是在结构工程和航空航天等领域，稳定性是至关重要的。这个稳定性的一个重要方面体现在术语残余稳定性标准中，它指的是在经历某些干扰或负载条件变化后，结构或车辆必须保持的最低可接受稳定水平。理解这一标准对于确保各种应用中的安全性和可靠性至关重要。残余稳定性标准作为工程师在设计结构和车辆时的基准。例如，在飞机的情况下，确保飞机能够在遇到湍流或其他意外力量后仍然保持控制和稳定是至关重要的。如果一架飞机未能满足残余稳定性标准，则可能会变得难以控制，潜在导致灾难性故障。因此，工程师必须严格测试和分析他们的设计，以确保符合这一标准。同样，在土木工程中，建筑物必须能够承受各种负载，包括风、地震和其他环境因素。残余稳定性标准帮助工程师确定结构可以承受多少负载而不会变得不稳定。该标准确保即使在经历极端条件后，建筑物仍将屹立不倒，并对居住者安全。残余稳定性标准的重要性不仅限于物理结构。它在软件系统的开发中也发挥着关键作用，尤其是在汽车或航空等安全关键行业。在这些背景下，残余稳定性标准可以与系统在遇到故障或错误后的功能和安全保持能力相关。确保软件系统符合这一标准对于防止事故和确保用户安全至关重要。此外，残余稳定性标准并不是静态的；它随着技术的进步和监管要求的变化而演变。工程师和设计师必须及时了解最新标准，并将其纳入工作中。这种持续的适应性确保新结构和系统不仅符合当前的安全期望，还能预见未来的挑战。总之，残余稳定性标准是支撑各种工程学科安全性和可靠性的基本原则。无论是在航空航天、土木工程还是软件开发中，维持这一标准对保护生命和确保结构与系统的完整性至关重要。随着技术的不断进步，遵守残余稳定性标准的重要性只会增加，使其成为全球工程师和设计师的关键关注点。