double bulkhead

简明释义

双层隔壁

英英释义

例句

1.The submarine was designed with a double bulkhead to enhance its structural integrity.

这艘潜艇的设计采用了双层舱壁以增强其结构完整性。

2.In case of flooding, the double bulkhead system prevents water from spreading to other compartments.

在发生洪水的情况下，双层舱壁系统可以防止水传播到其他舱室。

3.The ship's engineers emphasized the importance of the double bulkhead in maintaining safety standards.

船舶工程师强调了双层舱壁在维护安全标准中的重要性。

4.Many modern vessels utilize a double bulkhead design for better damage control.

许多现代船只采用双层舱壁设计以更好地控制损坏。

5.The cargo hold was equipped with a double bulkhead to protect sensitive materials.

货舱配备了双层舱壁以保护敏感材料。

作文

In the world of engineering and architecture, the term double bulkhead refers to a structural design that enhances safety and stability. A double bulkhead consists of two parallel walls or barriers that are constructed within a vessel or building, creating a compartmentalized space. This design is especially prevalent in ships and submarines, where it serves to prevent flooding and maintain buoyancy in case of damage to one of the walls. The use of a double bulkhead significantly reduces the risk of catastrophic failure, as the second barrier provides an additional layer of protection against water ingress.The concept of a double bulkhead can be traced back to the early days of naval architecture. Engineers realized that single bulkheads were often insufficient to safeguard against breaches caused by collisions or other accidents. By implementing a double bulkhead system, designers could ensure that even if one bulkhead was compromised, the second would still provide a vital defense. This innovation not only improved the safety of maritime vessels but also paved the way for advancements in underwater exploration and military applications.In addition to its application in marine engineering, the double bulkhead concept has found relevance in various fields, including aerospace and civil engineering. For instance, aircraft manufacturers utilize a similar approach to enhance the structural integrity of planes. By incorporating multiple layers of materials and barriers, they can create a robust frame that withstands extreme pressures and conditions during flight. Similarly, in high-rise buildings, a double bulkhead system can provide added fire resistance and sound insulation, improving overall safety and comfort for occupants.The advantages of employing a double bulkhead are numerous. Firstly, it offers enhanced safety, which is paramount in any engineering project. Secondly, it contributes to the longevity of structures by minimizing wear and tear. Moreover, the presence of a double bulkhead can improve the efficiency of operations, especially in environments where containment is crucial, such as chemical plants or oil rigs.However, the implementation of a double bulkhead system is not without its challenges. The construction process can be more complex and costly than traditional methods. Engineers must carefully consider the materials used, the design specifications, and the overall weight of the structure. Additionally, maintenance becomes critical, as both bulkheads need to be regularly inspected to ensure their integrity.In conclusion, the term double bulkhead encapsulates a vital aspect of modern engineering that prioritizes safety and durability. Its origins in naval architecture have expanded into various industries, showcasing its versatility and importance. As technology continues to advance, the principles behind the double bulkhead will likely evolve, leading to even more innovative solutions that protect both people and assets in an increasingly complex world.

在工程和建筑的世界中，术语双舱壁指的是一种增强安全性和稳定性的结构设计。双舱壁由两面平行的墙或障碍物组成，这些墙或障碍物建造在船只或建筑物内部，形成一个分隔的空间。这种设计在船只和潜艇中尤为常见，它可以防止洪水并在墙壁受损的情况下保持浮力。使用双舱壁显著降低了灾难性故障的风险，因为第二个障碍提供了额外的保护层，防止水进入。双舱壁的概念可以追溯到海军建筑的早期阶段。工程师意识到单一舱壁通常不足以防范由于碰撞或其他事故造成的破裂。通过实施双舱壁系统，设计师可以确保即使一个舱壁受到损坏，第二个舱壁仍然能够提供重要的防御。这一创新不仅提高了海洋船舶的安全性，还为水下探索和军事应用的进步铺平了道路。除了在海洋工程中的应用外，双舱壁概念在航空航天和土木工程等多个领域也得到了相关应用。例如，飞机制造商利用类似的方法来增强飞机的结构完整性。通过结合多层材料和障碍物，他们可以创建一个坚固的框架，承受飞行过程中的极端压力和条件。同样，在高层建筑中，双舱壁系统可以提供额外的防火和隔音效果，提高居住者的整体安全性和舒适度。采用双舱壁的优点是众多的。首先，它提供了增强的安全性，这是任何工程项目的重中之重。其次，它通过最小化磨损来延长结构的使用寿命。此外，双舱壁的存在可以提高操作效率，特别是在需要密闭的环境中，例如化工厂或石油平台。然而，实施双舱壁系统并非没有挑战。与传统方法相比，施工过程可能更加复杂和昂贵。工程师必须仔细考虑所用材料、设计规格和结构的整体重量。此外，维护变得至关重要，因为两个舱壁都需要定期检查以确保其完整性。总之，术语双舱壁概括了现代工程的一个重要方面，优先考虑安全性和耐用性。它在海军建筑中的起源已经扩展到各个行业，展示了其多功能性和重要性。随着技术的不断进步，双舱壁背后的原则可能会不断演变，导致更具创新性的解决方案，以保护在日益复杂的世界中人们和资产的安全。