watertight bulkhead

简明释义

水密舱壁

英英释义

例句

1.In the event of a collision, the watertight bulkheads can save lives by keeping the ship stable.

在碰撞事件中，防水舱壁可以通过保持船只稳定来拯救生命。

2.The ship's design includes several watertight bulkheads to prevent flooding in case of an emergency.

这艘船的设计包括几个防水舱壁，以防在紧急情况下发生洪水。

3.During the inspection, the engineer checked the integrity of the watertight bulkheads to ensure safety at sea.

在检查过程中，工程师检查了防水舱壁的完整性，以确保海上的安全。

4.The construction of watertight bulkheads is crucial for any large marine vessel.

建造防水舱壁对任何大型海洋船只来说都是至关重要的。

5.If one compartment is breached, the watertight bulkheads will contain the water and keep the vessel afloat.

如果一个舱室被破坏，防水舱壁将会限制水的进入并保持船只漂浮。

作文

The concept of a watertight bulkhead is crucial in the field of naval architecture and marine engineering. A watertight bulkhead is essentially a barrier that is designed to prevent water from flowing between different compartments of a ship or submarine. This feature is vital for maintaining the vessel's buoyancy and structural integrity in the event of a breach or flooding. The importance of watertight bulkheads can be illustrated through various historical maritime incidents, where their absence or failure led to catastrophic outcomes.For instance, during the tragic sinking of the RMS Titanic, the ship was equipped with several watertight bulkheads. However, the design flaws and the number of compartments that could be flooded simultaneously exceeded the ship's safety limits. As a result, the Titanic sank, highlighting the need for better designs and stricter regulations regarding watertight bulkheads in shipbuilding.In modern ship design, engineers utilize advanced materials and technologies to create more effective watertight bulkheads. These bulkheads are often constructed from reinforced steel or other durable materials that can withstand significant pressure and impact. Additionally, the design of these bulkheads has evolved to include features such as doors and hatches that can be sealed quickly in case of an emergency, ensuring that water cannot spread to other parts of the vessel.The implications of watertight bulkheads extend beyond just ships and submarines; they are also relevant in the construction of offshore oil rigs and underwater research facilities. In these environments, the risk of water intrusion is constant, and the integrity of the structure depends heavily on the effectiveness of its watertight bulkheads. Engineers must conduct thorough assessments and simulations to ensure that these barriers can withstand extreme conditions, including high-pressure underwater environments and potential impacts from marine debris.Furthermore, the principles behind watertight bulkheads can be applied to various industries, including civil engineering. For example, in the construction of underground tunnels or basements, watertight bulkheads are employed to prevent groundwater from seeping into the structure. This application highlights the versatility and importance of this concept beyond maritime contexts.In conclusion, watertight bulkheads play a vital role in ensuring the safety and operational efficiency of marine vessels. Their design and implementation are critical in preventing disasters at sea and protecting both human lives and cargo. As technology advances, the future of watertight bulkheads looks promising, with ongoing research aimed at improving their effectiveness and reliability. Understanding the significance of watertight bulkheads not only enhances our knowledge of maritime safety but also underscores the importance of engineering innovations in safeguarding against the forces of nature.

“防水隔舱”这一概念在海洋建筑和海洋工程领域至关重要。防水隔舱本质上是一种屏障，旨在防止水流动到船舶或潜艇的不同舱室之间。这一特性对于在发生破损或洪水事件时维持船只的浮力和结构完整性至关重要。防水隔舱的重要性可以通过各种历史海事事件来说明，在这些事件中，它们的缺失或失效导致了灾难性的后果。例如，在悲惨的RMS泰坦尼克号沉没事件中，这艘船装备了几个防水隔舱。然而，设计缺陷以及可以同时被淹没的舱室数量超出了船只的安全极限。因此，泰坦尼克号沉没了，突显了在船舶建造中对防水隔舱更好设计和更严格法规的需求。在现代船舶设计中，工程师利用先进的材料和技术来创建更有效的防水隔舱。这些隔舱通常由加固钢材或其他耐用材料制成，能够承受显著的压力和冲击。此外，这些隔舱的设计已经演变，包括快速密封的门和舱口，以防紧急情况发生，确保水无法扩散到船只的其他部分。防水隔舱的影响不仅限于船舶和潜艇；它们在海上石油钻井平台和水下研究设施的建设中也相关。在这些环境中，水侵入的风险是持续存在的，结构的完整性在很大程度上依赖于其防水隔舱的有效性。工程师必须进行彻底的评估和模拟，以确保这些屏障能够承受极端条件，包括高压水下环境和潜在的海洋碎片冲击。此外，防水隔舱背后的原理可以应用于各个行业，包括土木工程。例如，在地下隧道或地下室的建设中，防水隔舱被用来防止地下水渗入结构。这一应用突显了这一概念在海洋背景之外的多功能性和重要性。总之，防水隔舱在确保海洋船舶的安全性和操作效率方面发挥着至关重要的作用。它们的设计和实施对于防止海上灾难和保护人类生命及货物至关重要。随着技术的进步，防水隔舱的未来看起来充满希望，正在进行的研究旨在提高其有效性和可靠性。理解防水隔舱的重要性不仅增强了我们对海洋安全的认识，还强调了工程创新在抵御自然力量中的重要性。