nontight structural bulkhead

简明释义

非密结构舱壁

英英释义

例句

1.In the event of flooding, the nontight structural bulkhead helps to equalize pressure across the hull.

在淹水事件中，非密封结构隔板有助于平衡船体内的压力。

2.The design of the ship included a nontight structural bulkhead, which allows for better ventilation between compartments.

船的设计包括一个非密封结构隔板，这允许舱室之间更好的通风。

3.The nontight structural bulkhead is crucial for maintaining the integrity of the ship's overall structure.

该非密封结构隔板对维持船整体结构的完整性至关重要。

4.Engineers often use a nontight structural bulkhead to separate different sections of a marine vessel.

工程师通常使用非密封结构隔板来分隔海洋船只的不同部分。

5.When designing a submarine, a nontight structural bulkhead can provide flexibility in the layout.

在设计潜艇时，非密封结构隔板可以提供布局上的灵活性。

作文

In the world of engineering and architecture, the term nontight structural bulkhead refers to a type of partition or barrier that is not designed to be completely sealed or watertight. This concept plays a significant role in various industries, particularly in marine engineering and construction. Understanding the implications of a nontight structural bulkhead can help engineers and architects make informed decisions regarding the design and functionality of structures.Firstly, it is important to recognize the purpose of a nontight structural bulkhead. Unlike tight bulkheads that are intended to prevent the passage of water, air, or other substances, a nontight bulkhead allows for some level of permeability. This characteristic can be advantageous in certain applications, such as in shipbuilding, where it is crucial to balance structural integrity with the ability to manage water ingress in a controlled manner.For instance, in the design of a vessel, a nontight structural bulkhead can be used to separate different compartments within the ship. This separation is essential for maintaining stability and controlling flooding in case of an emergency. By allowing water to flow between compartments, the bulkhead can help distribute pressure and prevent catastrophic failure. Thus, while it may seem counterintuitive to use a bulkhead that is not completely tight, it actually serves a critical function in ensuring safety and stability.Moreover, the use of nontight structural bulkhead is not limited to marine applications. In building construction, these types of bulkheads can be employed to create open spaces while still providing some degree of structural support. For example, in commercial buildings, a nontight bulkhead can be used to delineate areas without completely isolating them. This approach promotes airflow and light penetration, contributing to a more pleasant environment for occupants.Additionally, the choice to implement a nontight structural bulkhead can also have economic benefits. Constructing a fully sealed bulkhead may require more materials and labor, increasing overall project costs. Conversely, a nontight option can streamline the construction process, allowing for quicker completion times and reduced expenses. This economic consideration is particularly relevant in today’s fast-paced construction industry, where budget constraints are often a major concern.However, it is essential to consider the potential drawbacks of using a nontight structural bulkhead. While they offer flexibility and cost savings, there are instances where a higher level of containment is necessary. In environments where hazardous materials are present, for example, a nontight bulkhead may not provide adequate protection. Therefore, engineers must carefully assess the specific requirements of each project to determine whether a nontight or tight bulkhead is more appropriate.In conclusion, the term nontight structural bulkhead encompasses a valuable concept in both marine and architectural engineering. Its ability to allow for controlled permeability can enhance safety, promote economic efficiency, and contribute to innovative design solutions. As professionals continue to explore the applications of this type of bulkhead, it is crucial to weigh the benefits against the potential risks to ensure optimal outcomes in structural integrity and functionality.

在工程和建筑的世界中，术语nontight structural bulkhead指的是一种不设计为完全密封或防水的隔断或障碍物。这个概念在各个行业中起着重要作用，特别是在海洋工程和建筑中。理解nontight structural bulkhead的含义可以帮助工程师和建筑师在结构设计和功能性方面做出明智的决策。首先，重要的是要认识到nontight structural bulkhead的目的。与旨在防止水、空气或其他物质通过的紧密隔板不同，非紧密隔板允许某种程度的渗透。这种特性在某些应用中可能是有利的，例如在造船中，在这种情况下，平衡结构完整性与以受控方式管理水流入的能力至关重要。例如，在船舶设计中，可以使用nontight structural bulkhead来分隔船内的不同舱室。这种分隔对于在紧急情况下保持稳定性和控制洪水至关重要。通过允许水在舱室之间流动，隔板可以帮助分配压力并防止灾难性故障。因此，虽然使用不完全密封的隔板似乎是违反直觉的，但它实际上在确保安全和稳定性方面发挥了关键作用。此外，nontight structural bulkhead的使用不仅限于海洋应用。在建筑施工中，这些类型的隔板可以用于创建开放空间，同时仍提供一定程度的结构支持。例如，在商业建筑中，可以使用非紧密隔板来划分区域，而不会完全隔离它们。这种方法促进了空气流通和光线透过，为居住者创造了更愉快的环境。此外，选择实施nontight structural bulkhead还可能带来经济利益。建造一个完全密封的隔板可能需要更多的材料和劳动力，从而增加整体项目成本。相反，非紧密选项可以简化施工过程，加快完成时间并降低费用。在当今快速发展的建筑行业中，这种经济考虑尤为相关，因为预算限制通常是一个主要问题。然而，必须考虑使用nontight structural bulkhead的潜在缺点。虽然它们提供了灵活性和成本节约，但在某些情况下，可能需要更高水平的封闭性。例如，在存在危险材料的环境中，非紧密隔板可能无法提供足够的保护。因此，工程师必须仔细评估每个项目的具体要求，以确定使用紧密隔板还是非紧密隔板更为合适。总之，术语nontight structural bulkhead涵盖了海洋和建筑工程中的一个重要概念。它允许受控渗透的能力可以增强安全性、促进经济效率，并对创新设计解决方案作出贡献。随着专业人士继续探索这种类型隔板的应用，权衡其优势与潜在风险以确保结构完整性和功能性的最佳结果至关重要。