water tight bulkhead

简明释义

水密舱壁

英英释义

例句

1.If a water tight bulkhead is compromised, it can lead to catastrophic damage to the vessel.

如果水密隔舱受到破坏，可能会导致船只遭受灾难性的损害。

2.A properly constructed water tight bulkhead can save lives during maritime emergencies.

一个正确建造的水密隔舱可以在海上紧急情况下拯救生命。

3.During the inspection, the engineer checked the integrity of the water tight bulkhead to ensure safety.

在检查过程中，工程师检查了水密隔舱的完整性，以确保安全。

4.The ship's design includes a water tight bulkhead to prevent flooding in case of a hull breach.

这艘船的设计包括一个水密隔舱，以防止在船体破损的情况下发生洪水。

5.The submarine relies on its water tight bulkhead to maintain pressure at great depths.

潜艇依靠其水密隔舱在深海维持压力。

作文

In the world of engineering and naval architecture, safety is paramount, especially when designing vessels that traverse vast oceans. One critical component that enhances the safety of ships is the water tight bulkhead. A water tight bulkhead is essentially a barrier designed to prevent water from flowing from one compartment of a ship to another. This design feature is vital because it helps to maintain the vessel's buoyancy and stability in the event of a breach in the hull. Without such barriers, even a small leak could lead to catastrophic flooding, ultimately resulting in the sinking of the ship.The concept of the water tight bulkhead dates back to the early days of shipbuilding. Early sailors understood the dangers posed by water ingress and sought ways to mitigate these risks. Over time, the technology and materials used to construct these bulkheads have evolved significantly. Modern ships are equipped with advanced materials that provide not only strength but also resistance to corrosion and other environmental factors. This evolution has made vessels safer and more reliable.One of the most famous examples of the importance of water tight bulkheads in maritime history is the tragic sinking of the RMS Titanic. The Titanic was designed with multiple water tight bulkheads, which were believed to make the ship unsinkable. However, the bulkheads were not tall enough to contain the flooding after the ship struck an iceberg, leading to its eventual demise. This disaster highlighted the need for better designs and stricter regulations regarding the height and integrity of water tight bulkheads in ship construction.In addition to their use in ships, water tight bulkheads are also employed in various engineering applications, including underwater structures and flood protection systems. For instance, buildings located in flood-prone areas often utilize water tight bulkheads to safeguard against rising water levels. These barriers can be constructed from reinforced concrete or steel and are designed to withstand significant hydrostatic pressure.The effectiveness of a water tight bulkhead relies heavily on proper design, installation, and maintenance. Engineers must carefully calculate the dimensions and materials needed to ensure that the bulkhead can withstand potential water pressure without failing. Regular inspections and maintenance are also crucial to identify any wear or damage that could compromise the integrity of the bulkhead over time.In conclusion, the water tight bulkhead is a vital component in the design and construction of safe vessels and structures. Its ability to contain water and prevent flooding plays a crucial role in ensuring the safety of maritime operations and protecting infrastructure from water damage. As technology continues to advance, we can expect further improvements in the design and materials used for water tight bulkheads, making our ships and buildings even safer in the face of water-related challenges.

在工程和船舶设计的世界中，安全是至关重要的，尤其是在设计穿越广阔海洋的船只时。增强船只安全性的一个关键组件是水密舱壁。水密舱壁本质上是一种障碍物，旨在防止水从船只的一个舱室流向另一个舱室。这种设计特征至关重要，因为它有助于在船体破裂的情况下保持船只的浮力和稳定性。如果没有这样的障碍，即使是小泄漏也可能导致灾难性的洪水，最终导致船只沉没。水密舱壁的概念可以追溯到早期的造船时代。早期的水手们理解水涌入带来的危险，并寻求减轻这些风险的方法。随着时间的推移，用于构造这些舱壁的技术和材料有了显著的发展。现代船只配备了先进的材料，这些材料不仅提供强度，还能抵抗腐蚀和其他环境因素。这一演变使得船只更安全、更可靠。一个关于水密舱壁在海事历史中重要性的著名例子是悲惨的RMS泰坦尼克号沉没事件。泰坦尼克号的设计中包含多个水密舱壁，人们认为这使得船只不易沉没。然而，这些舱壁的高度不足以在船只撞上冰山后控制洪水，导致了其最终的沉没。这场灾难凸显了对船舶建造中水密舱壁的高度和完整性进行更好设计和更严格规定的必要性。除了在船只中的应用外，水密舱壁还用于各种工程应用，包括水下结构和防洪系统。例如，位于易受洪水影响地区的建筑物通常利用水密舱壁来保护自己免受水位上升的影响。这些障碍物可以由增强混凝土或钢材建造，旨在承受显著的水静压力。水密舱壁的有效性在很大程度上依赖于适当的设计、安装和维护。工程师必须仔细计算所需的尺寸和材料，以确保舱壁能够承受潜在的水压而不发生故障。定期检查和维护也至关重要，以识别任何可能随着时间推移而损害舱壁完整性的磨损或损坏。总之，水密舱壁是安全船舶和结构设计与建造中的重要组成部分。它能够控制水流并防止洪水的能力在确保海上作业的安全和保护基础设施免受水损害方面发挥着至关重要的作用。随着技术的不断进步，我们可以期待在水密舱壁的设计和材料使用上进一步改善，使我们的船只和建筑在面对水相关挑战时更加安全。