horizontal wave bending moment

简明释义

波浪弯曲水平力矩

英英释义

例句

1.In marine construction, understanding the horizontal wave bending moment 水平波弯矩 is essential for safe design practices.

在海洋建设中，理解水平波弯矩 水平波弯矩对安全设计实践至关重要。

2.During storm conditions, the horizontal wave bending moment 水平波弯矩 increases, requiring additional reinforcement for piers.

在风暴条件下，水平波弯矩 水平波弯矩增加，需要对码头进行额外加固。

3.The design of offshore platforms must account for the horizontal wave bending moment 水平波弯矩 to ensure structural integrity.

离岸平台的设计必须考虑到水平波弯矩 水平波弯矩以确保结构完整性。

4.The horizontal wave bending moment 水平波弯矩 can significantly impact the lifespan of coastal structures.

水平波弯矩 水平波弯矩可以显著影响沿海结构的使用寿命。

5.Engineers calculate the horizontal wave bending moment 水平波弯矩 to predict how waves will affect bridge stability.

工程师计算水平波弯矩 水平波弯矩以预测波浪将如何影响桥梁的稳定性。

作文

The study of marine engineering involves understanding various forces and moments that affect structures in the ocean. One critical aspect is the impact of waves on these structures, particularly how they cause bending moments. Among these, the horizontal wave bending moment plays a significant role in the design and analysis of offshore platforms and ships. This term refers to the bending effect exerted by horizontal wave forces acting on a structure. When waves approach a structure, they generate dynamic pressures that can lead to significant lateral forces. These forces, when combined with the weight and other loads acting on the structure, create a bending moment that can influence its stability and integrity.To better grasp the concept of horizontal wave bending moment, it is essential to understand the mechanics behind wave action. Waves are generated by wind blowing across the surface of the water, creating oscillatory movements. As these waves propagate, they carry energy that can exert pressure on any object in their path. When a wave strikes an offshore platform or a ship, it does not only push vertically; it also applies horizontal forces due to its shape and movement. This results in a bending moment that is crucial for engineers to consider during the design phase.In practical terms, the calculations involving the horizontal wave bending moment are complex and require sophisticated modeling techniques. Engineers often use computational fluid dynamics (CFD) simulations to predict how waves will interact with structures. By understanding the magnitude and direction of these bending moments, engineers can reinforce structures accordingly, ensuring they can withstand extreme weather conditions and wave actions over time.Moreover, the significance of the horizontal wave bending moment extends beyond mere structural integrity. It also impacts the safety of personnel working on or around these structures. For instance, if a platform is subjected to excessive bending moments due to large waves, it could lead to catastrophic failures, endangering lives and causing financial losses. Therefore, accurate assessment and mitigation strategies are paramount in marine engineering.In conclusion, the horizontal wave bending moment is a vital concept in the field of marine engineering, representing the bending effects caused by horizontal forces from waves. Understanding this phenomenon is crucial for the safe and effective design of maritime structures. As technology advances, so too does our ability to model and predict these forces, allowing for improved safety measures and design practices. The ongoing research in this area continues to enhance our knowledge, ensuring that our infrastructure can endure the challenges posed by the ever-changing marine environment.

海洋工程的研究涉及理解影响海洋中结构的各种力和力矩。其中一个关键方面是波浪对这些结构的影响，特别是它们如何导致弯矩。在这些力矩中，水平波弯矩在海上平台和船舶的设计与分析中起着重要作用。这个术语指的是由水平波浪力作用于结构所产生的弯曲效应。当波浪接近结构时，它们产生的动态压力可能会导致显著的侧向力。这些力与作用于结构的重量和其他载荷结合在一起，形成一个弯矩，这可能影响其稳定性和完整性。为了更好地理解水平波弯矩的概念，有必要了解波浪作用背后的力学。波浪是由风吹过水面而产生的，形成了振荡运动。当这些波浪传播时，它们携带的能量可以对其路径上的任何物体施加压力。当波浪撞击海上平台或船舶时，它不仅仅是垂直推动，还由于其形状和运动施加水平力。这导致了一个弯矩，对于工程师在设计阶段的考虑至关重要。在实际操作中，涉及水平波弯矩的计算是复杂的，需要复杂的建模技术。工程师通常使用计算流体动力学（CFD）模拟来预测波浪如何与结构相互作用。通过了解这些弯矩的大小和方向，工程师可以相应地加固结构，确保它们能够承受极端天气条件和波浪作用。此外，水平波弯矩的重要性超出了单纯的结构完整性。它还影响在这些结构上或周围工作的人员的安全。例如，如果一个平台因大波而受到过大的弯矩，它可能导致灾难性的故障，危及生命并造成经济损失。因此，准确的评估和缓解策略在海洋工程中至关重要。总之，水平波弯矩是海洋工程领域中的一个重要概念，代表了波浪施加的水平力所引起的弯曲效应。理解这一现象对于海洋基础设施的安全和有效设计至关重要。随着技术的进步，我们对这些力的建模和预测能力也在提高，从而改善安全措施和设计实践。该领域的持续研究不断增强我们的知识，确保我们的基础设施能够经受住不断变化的海洋环境带来的挑战。