gravity type fender

简明释义

悬挂重力式防撞装置

英英释义

例句

1.During the construction of the new dock, engineers specified gravity type fender for better protection.

在新码头的建设中，工程师指定使用重力型护舷以提供更好的保护。

2.The marina installed new gravity type fender to protect the boats from damage during storms.

码头安装了新的重力型护舷以保护船只在风暴期间不受损坏。

3.Using a gravity type fender can significantly reduce the impact when vessels dock at the pier.

使用重力型护舷可以显著减少船只靠泊时对码头的冲击。

4.The design of the gravity type fender allows it to absorb energy effectively.

这种重力型护舷的设计使其能够有效地吸收能量。

5.The gravity type fender is made from durable materials to withstand harsh marine conditions.

这种重力型护舷由耐用材料制成，以承受恶劣的海洋条件。

作文

In the world of marine engineering, various structures are designed to protect vessels and ensure safe docking procedures. One such crucial element is the gravity type fender. A gravity type fender (重力型护舷) is a type of fender that uses its own weight to remain in place and absorb the impact of a vessel during docking. This design is particularly effective in areas where tidal variations are significant, as it can adapt to changing water levels while providing a stable barrier for boats and ships.The primary function of a gravity type fender is to minimize damage to both the fender itself and the vessel it is protecting. When a ship approaches a dock, it generates kinetic energy that can lead to collisions if not properly managed. The gravity type fender absorbs this energy, allowing for a smoother and safer docking experience. Unlike other types of fenders that may require complex mechanical systems or additional anchoring, the simplicity of the gravity type fender makes it an attractive option for many port authorities and marine engineers.Another advantage of the gravity type fender is its durability. Made from robust materials such as rubber or foam-filled composites, these fenders can withstand harsh marine environments, including saltwater corrosion and extreme weather conditions. This longevity ensures that ports can maintain their infrastructure with minimal maintenance costs, making the gravity type fender a cost-effective solution in the long run.Furthermore, the installation of a gravity type fender is relatively straightforward. Since it relies on gravity for its positioning, it does not require extensive excavation or modifications to existing structures. This ease of installation allows ports to upgrade their fendering systems quickly and efficiently, minimizing downtime and disruption to maritime operations.However, while the gravity type fender has many benefits, it is not without limitations. For instance, in areas with very high tidal ranges or strong currents, additional stabilization measures might be necessary to ensure that the fender remains effective. Engineers must carefully assess the specific conditions of each docking location to determine whether a gravity type fender is the most suitable option or if an alternative design would be more appropriate.In conclusion, the gravity type fender (重力型护舷) plays a vital role in marine safety and infrastructure. Its ability to absorb impact, durability, and ease of installation make it a preferred choice among marine engineers and port authorities. As maritime traffic continues to increase globally, the importance of effective fendering systems, such as the gravity type fender, will only grow. Understanding the functionality and benefits of this type of fender is essential for anyone involved in the design and maintenance of marine facilities. By investing in robust fender systems, we can ensure safer and more efficient operations in our busy ports.

在海洋工程的世界中，各种结构被设计用来保护船只并确保安全的停靠程序。其中一个至关重要的元素是重力型护舷。重力型护舷是一种利用自身重量保持在位并吸收船只在停靠时冲击的护舷。这种设计在潮汐变化显著的地区特别有效，因为它可以适应水位的变化，同时为船只提供稳定的屏障。重力型护舷的主要功能是最小化护舷本身和其保护的船只之间的损害。当一艘船靠近码头时，它会产生动能，如果不加以管理，可能导致碰撞。重力型护舷吸收这种能量，使停靠过程更加平稳和安全。与其他类型的护舷不同，后者可能需要复杂的机械系统或额外的锚定，重力型护舷的简单性使其成为许多港口当局和海洋工程师的理想选择。重力型护舷的另一个优点是其耐用性。这些护舷由橡胶或填充泡沫的复合材料制成，可以承受恶劣的海洋环境，包括盐水腐蚀和极端天气条件。这种耐久性确保港口能够以最低的维护成本维持其基础设施，从而使重力型护舷在长期内成为一种经济有效的解决方案。此外，安装重力型护舷相对简单。由于它依赖于重力来定位，因此不需要大量挖掘或对现有结构进行改造。这种安装的便利性使港口能够迅速高效地升级其护舷系统，最大限度地减少停机时间和对海事操作的干扰。然而，尽管重力型护舷有许多优点，但也并非没有局限性。例如，在潮差非常高或水流强劲的地区，可能需要额外的稳定措施，以确保护舷仍然有效。工程师必须仔细评估每个停靠位置的特定条件，以确定重力型护舷是否是最合适的选择，还是其他设计更为合适。总之，重力型护舷在海洋安全和基础设施中发挥着至关重要的作用。它的冲击吸收能力、耐用性和安装简便性使其成为海洋工程师和港口当局的首选。随着全球海上交通的不断增加，有效护舷系统（如重力型护舷）的重要性只会增加。理解这种护舷的功能和好处对于任何参与海洋设施设计和维护的人来说都是至关重要的。通过投资于坚固的护舷系统，我们可以确保在繁忙港口的运营更加安全和高效。