non-tight bulkhead

简明释义

非密封舱壁

英英释义

例句

1.Due to the presence of a non-tight bulkhead, we need to be cautious about water ingress during heavy rain.

由于存在一个非密封隔舱，我们需要在大雨期间小心水的渗入。

2.In the event of an emergency, the non-tight bulkhead will help prevent the spread of fire from one compartment to another.

在紧急情况下，非密封隔舱将有助于防止火灾从一个舱室蔓延到另一个舱室。

3.The non-tight bulkhead allows for air circulation between compartments, which is essential for ventilation.

这个非密封隔舱允许舱室之间的空气流通，这对于通风至关重要。

4.The engineers recommended using a non-tight bulkhead in areas where pressure differentials are minimal.

工程师建议在压力差最小的区域使用非密封隔舱。

5.The ship's design includes a non-tight bulkhead to allow for better water drainage in case of flooding.

船只的设计包括一个非密封隔舱，以便在发生洪水时更好地排水。

作文

In the realm of engineering and architecture, understanding various structural components is crucial for designing safe and efficient buildings and vessels. One such component that often comes into play is the non-tight bulkhead. This term refers to a partition within a structure that does not create a completely sealed environment. Unlike tight bulkheads, which are designed to withstand pressure and prevent the passage of fluids or gases, non-tight bulkheads allow for some level of permeability. This characteristic can be particularly beneficial in certain applications, such as in ships or submarines, where water management is essential. The significance of non-tight bulkheads lies in their ability to provide structural support while also allowing for necessary ventilation and drainage. In marine vessels, for instance, these bulkheads can help manage water ingress during rough seas. They can channel water away from critical areas of the ship, reducing the risk of flooding in compartments that are vital for the vessel's operation. Moreover, non-tight bulkheads can enhance the overall safety of a structure by preventing the buildup of pressure. In scenarios where gases or vapors might accumulate, these bulkheads can facilitate a controlled release, thereby averting potential hazards like explosions or structural failures. This design consideration is especially important in industrial settings, where chemical processes may generate volatile substances. Another aspect to consider is the cost-effectiveness of using non-tight bulkheads. Since they do not require the same level of material strength and sealing as tight bulkheads, they can be constructed with lighter materials, which reduces construction costs. This makes them an attractive option for many projects where budget constraints are a significant factor. However, the use of non-tight bulkheads is not without its challenges. Designers must carefully assess the specific requirements of each project to ensure that the permeability of these bulkheads does not compromise the integrity of the structure. For example, in environments where water intrusion could lead to severe damage, additional measures may need to be implemented to protect sensitive areas. In summary, the concept of non-tight bulkheads plays a vital role in various fields of engineering and architecture. Their ability to balance structural support with permeability makes them a valuable asset in designing safe and efficient spaces, particularly in marine and industrial applications. Understanding the implications of using non-tight bulkheads is essential for engineers and architects alike, as it allows them to make informed decisions that prioritize both safety and functionality.

在工程和建筑领域，理解各种结构组件对于设计安全高效的建筑和船舶至关重要。一个常常被提及的组件是非紧密隔板。这个术语指的是一种在结构内部的隔断，它并不创造一个完全密封的环境。与旨在承受压力并防止液体或气体通过的紧密隔板不同，非紧密隔板允许一定程度的渗透。这一特性在某些应用中尤其有利，比如在船舶或潜艇中，水管理至关重要。非紧密隔板的重要性在于它们能够提供结构支持，同时也允许必要的通风和排水。例如，在海洋船舶中，这些隔板可以帮助在恶劣海况下管理水的进入。它们可以将水引导远离船只的关键区域，从而减少淹没对船舶操作至关重要的舱室的风险。此外，非紧密隔板还可以通过防止压力积聚来增强结构的整体安全性。在可能会积聚气体或蒸汽的情况下，这些隔板可以促进控制释放，从而避免潜在的危险，如爆炸或结构故障。这一设计考虑在工业环境中特别重要，因为化学过程可能会产生挥发性物质。另一个需要考虑的方面是使用非紧密隔板的成本效益。由于它们不需要与紧密隔板相同的材料强度和密封性，因此可以用更轻的材料建造，从而降低建筑成本。这使得它们在预算限制显著的项目中成为一个有吸引力的选择。然而，使用非紧密隔板并非没有挑战。设计师必须仔细评估每个项目的具体要求，以确保这些隔板的渗透性不会损害结构的完整性。例如，在水侵入可能导致严重损害的环境中，可能需要额外的措施来保护敏感区域。总之，非紧密隔板的概念在各个工程和建筑领域中发挥着至关重要的作用。它们在结构支持与渗透性之间的平衡使其成为设计安全高效空间，特别是在海洋和工业应用中的宝贵资产。理解使用非紧密隔板的含义对于工程师和建筑师来说至关重要，因为这使他们能够做出优先考虑安全和功能性的明智决策。