stabilzing bulge

简明释义

舷侧防摇水舱

英英释义

例句

1.During the inspection, we noticed a stabilizing bulge 稳定膨胀 on the bridge that required immediate attention.

在检查过程中，我们注意到桥上有一个需要立即关注的stabilizing bulge 稳定膨胀。

2.The stabilizing bulge 稳定膨胀 in the soil indicates that there may be underlying pressure issues.

土壤中的stabilizing bulge 稳定膨胀表明可能存在潜在的压力问题。

3.The architect explained how the stabilizing bulge 稳定膨胀 in the design would enhance the building's structural integrity.

建筑师解释了设计中的stabilizing bulge 稳定膨胀将如何增强建筑的结构完整性。

4.The engineer designed a new support structure to accommodate the stabilizing bulge 稳定膨胀 in the pipeline.

工程师设计了一个新的支撑结构，以适应管道中的stabilizing bulge 稳定膨胀。

5.We need to monitor the stabilizing bulge 稳定膨胀 in the dam regularly to prevent any potential failures.

我们需要定期监测大坝中的stabilizing bulge 稳定膨胀，以防止任何潜在的故障。

作文

In the realm of physics and engineering, the concept of a stabilizing bulge plays a crucial role in understanding how structures maintain their integrity under various forces. A stabilizing bulge refers to a structural feature that helps to distribute loads more evenly across a material or component, thereby preventing failure or deformation. This phenomenon can be observed in various applications, from the design of bridges and buildings to the manufacturing of aircraft and automobiles.When engineers design a bridge, for instance, they must consider the weight of the vehicles that will travel over it, as well as environmental factors such as wind and seismic activity. The incorporation of a stabilizing bulge in certain areas of the bridge can enhance its ability to withstand these forces. By creating a bulge, the engineers effectively increase the surface area that is in contact with the supporting structures, which allows for better load distribution. This not only improves the safety of the bridge but also extends its lifespan by reducing the risk of structural failure.Similarly, in the automotive industry, the concept of a stabilizing bulge is vital in the design of car bodies. When a vehicle encounters rough terrain or sudden impacts, the body must be able to absorb and distribute the forces exerted upon it. A strategically placed stabilizing bulge can help to reinforce the structure, providing additional strength where it is most needed. This design consideration is essential not just for the performance of the vehicle, but also for the safety of its occupants.In the context of aerodynamics, the stabilizing bulge can also be seen in the design of aircraft wings. Wings are engineered to generate lift, but they must also be capable of withstanding the forces of turbulence and drag. By incorporating a stabilizing bulge into the wing design, engineers can improve the airflow around the wing, enhancing its performance while ensuring that it remains stable during flight. This is particularly important in high-speed aviation, where even minor instabilities can lead to catastrophic failures.The significance of a stabilizing bulge extends beyond just physical structures; it can also be applied metaphorically in various fields. For example, in project management, a stabilizing bulge could represent a contingency plan that helps to mitigate risks associated with unforeseen challenges. By having a robust plan in place, project managers can ensure that their projects remain on track, much like a structural bulge that prevents collapse under pressure.In conclusion, the concept of a stabilizing bulge is integral to various disciplines, providing both practical and theoretical insights into how structures can be designed and managed effectively. Whether in engineering, aviation, or project management, understanding the role of a stabilizing bulge can lead to improved safety, performance, and resilience. As we continue to innovate and push the boundaries of technology, the principles behind the stabilizing bulge will undoubtedly remain relevant, guiding us towards more effective and sustainable solutions.

在物理和工程领域，稳定隆起的概念在理解结构如何在各种力的作用下保持完整性方面发挥着至关重要的作用。稳定隆起是指一种结构特征，有助于更均匀地分布材料或组件上的负载，从而防止失效或变形。这种现象可以在从桥梁和建筑物设计到飞机和汽车制造的各种应用中观察到。例如，当工程师设计一座桥时，他们必须考虑将要经过的车辆的重量，以及风和地震等环境因素。在桥的某些区域加入稳定隆起可以增强其承受这些力量的能力。通过创建一个隆起，工程师有效地增加了与支撑结构接触的表面积，这样就可以更好地分配负载。这不仅提高了桥的安全性，还通过减少结构失效的风险来延长其使用寿命。同样，在汽车工业中，稳定隆起的概念在汽车车身的设计中至关重要。当一辆汽车遇到崎岖地形或突然冲击时，车身必须能够吸收和分配施加在其上的力量。一个战略性放置的稳定隆起可以帮助增强结构，在最需要的地方提供额外的强度。这种设计考虑对车辆的性能至关重要，同时也关系到乘员的安全。在空气动力学的背景下，稳定隆起也可以在飞机机翼的设计中看到。机翼被设计用来产生升力，但它们还必须能够承受湍流和阻力的力量。通过在机翼设计中加入稳定隆起，工程师可以改善气流在机翼周围的流动，增强其性能，同时确保在飞行过程中保持稳定。这在高速航空中尤为重要，因为即使是轻微的不稳定也可能导致灾难性的失败。稳定隆起的重要性不仅限于物理结构；它还可以在各个领域中比喻性地应用。例如，在项目管理中，稳定隆起可以代表一个应急计划，有助于减轻与不可预见的挑战相关的风险。通过制定一个稳健的计划，项目经理可以确保他们的项目保持在正轨上，就像一个结构性的隆起防止在压力下崩溃一样。总之，稳定隆起的概念对于各个学科都是不可或缺的，为我们提供了关于如何有效设计和管理结构的实际和理论见解。无论是在工程、航空还是项目管理中，理解稳定隆起的作用都可以带来更高的安全性、性能和韧性。随着我们继续创新和推动技术的边界，稳定隆起背后的原则无疑将继续保持相关性，引导我们朝着更有效和可持续的解决方案迈进。