bulkhead web

简明释义

舱壁桁材

英英释义

例句

1.The design specifications required a certain thickness for the bulkhead web 隔板网 to ensure safety.

设计规范要求隔板网达到一定厚度以确保安全。

2.We used advanced materials to reinforce the bulkhead web 隔板网 for better durability.

我们使用先进材料加固隔板网以提高耐久性。

3.The engineer designed the structure to ensure that the bulkhead web 隔板网 could withstand high pressure.

工程师设计了结构，以确保隔板网能够承受高压力。

4.The bulkhead web 隔板网 plays a critical role in the stability of the vessel.

在船舶的稳定性中，隔板网起着至关重要的作用。

5.During the inspection, we found that the bulkhead web 隔板网 was damaged and needed repairs.

在检查过程中，我们发现隔板网受损，需要修理。

作文

The concept of a bulkhead web is fundamental in the field of structural engineering, particularly in the design of ships and aircraft. A bulkhead web refers to the vertical structural element that connects the various components of a bulkhead, providing strength and stability. In essence, it serves as a crucial part of the overall framework that ensures the integrity of the vessel or aircraft under various conditions. Understanding the importance of the bulkhead web requires a look into its role in maintaining the structural integrity of a craft. Bulkheads are essentially walls within a ship or an aircraft that divide the interior into compartments. These compartments can serve multiple purposes, such as providing buoyancy, separating hazardous materials, or simply organizing space. The bulkhead web plays a pivotal role in this division by ensuring that the bulkheads can withstand the forces they encounter during operation. For example, in marine architecture, the bulkhead web helps to prevent water from flooding the entire vessel in case of a breach in one compartment. By reinforcing the bulkheads with a strong web structure, engineers can ensure that the ship remains afloat and stable even when faced with challenging conditions at sea. Without a well-designed bulkhead web, the risk of catastrophic failure increases significantly. In aviation, the bulkhead web performs similar functions. Aircraft are subjected to various stresses during flight, including changes in pressure and turbulence. The bulkhead web helps to maintain the shape of the fuselage and provides critical support to the wings and tail sections. This structural reinforcement is essential for the safety and performance of the aircraft. Engineers must carefully analyze the loads that the bulkhead web will experience to ensure that it can handle the stresses without compromising the aircraft's integrity. Moreover, the design of a bulkhead web must consider not only strength but also weight. In both ships and aircraft, every ounce counts. Therefore, engineers often employ advanced materials and innovative designs to create a bulkhead web that is both lightweight and robust. This balance between strength and weight is a critical aspect of modern engineering practices, pushing the boundaries of what is possible in terms of design and functionality. In conclusion, the bulkhead web is a vital component in the structural design of ships and aircraft, playing a key role in ensuring their safety and performance. Understanding its function and importance allows engineers to create more efficient and resilient designs, ultimately leading to safer and more reliable transportation options. As technology continues to advance, the design and application of the bulkhead web will likely evolve, further enhancing the capabilities of maritime and aerospace engineering. By appreciating the significance of the bulkhead web, we can better understand the complexities involved in engineering safe and effective vessels and aircraft that navigate our waters and skies.

“bulkhead web”是结构工程领域的一个基本概念，特别是在船舶和飞机的设计中。“bulkhead web”指的是连接舱壁各个组件的垂直结构元素，提供强度和稳定性。它本质上是确保船只或飞机在各种条件下保持完整性的整体框架的重要部分。理解“bulkhead web”的重要性需要了解它在维护工艺结构完整性方面的作用。舱壁实质上是船舶或飞机内部的墙壁，将内部空间划分为多个舱室。这些舱室可以有多种用途，例如提供浮力、分隔危险材料或简单地组织空间。“bulkhead web”在这种划分中发挥着关键作用，确保舱壁能够承受在操作过程中遇到的力量。例如，在海洋建筑中，“bulkhead web”有助于防止在某个舱室发生破损时水涌入整个船舶。通过用强大的网状结构加固舱壁，工程师可以确保即使在海上面临挑战性条件时，船舶也能保持漂浮和稳定。如果没有良好设计的“bulkhead web”，灾难性故障的风险将显著增加。在航空领域，“bulkhead web”执行类似的功能。飞机在飞行过程中会受到多种应力，包括压力变化和湍流。“bulkhead web”有助于维持机身的形状，并为机翼和尾部提供关键支撑。这种结构加固对飞机的安全性和性能至关重要。工程师必须仔细分析“bulkhead web”所经历的载荷，以确保它能够承受这些应力而不影响飞机的完整性。此外，“bulkhead web”的设计不仅要考虑强度，还要考虑重量。在船舶和飞机中，每一盎司都很重要。因此，工程师经常采用先进的材料和创新的设计来创建既轻巧又坚固的“bulkhead web”。这种强度与重量之间的平衡是现代工程实践的一个关键方面，推动了设计和功能可能性的边界。总之，“bulkhead web”是船舶和飞机结构设计中的一个重要组成部分，在确保其安全性和性能方面发挥着关键作用。理解其功能和重要性使工程师能够创造出更高效、更具韧性的设计，最终导致更安全、更可靠的运输选择。随着技术的不断进步，“bulkhead web”的设计和应用可能会演变，进一步增强海洋和航空工程的能力。通过欣赏“bulkhead web”的重要性，我们可以更好地理解工程师在工程安全有效的船舶和飞机方面所涉及的复杂性，这些船舶和飞机在我们的水域和天空中航行。