athwartship carrier

简明释义

横向自差校正座

英英释义

例句

1.The design of the ship included an athwartship carrier to enhance stability during rough seas.

船只的设计包括一个横向支架，以增强在恶劣海况下的稳定性。

2.Engineers tested the athwartship carrier for strength before installation.

工程师在安装之前对横向支架进行了强度测试。

3.During the inspection, the crew noted that the athwartship carrier showed signs of wear.

在检查过程中，船员注意到横向支架出现了磨损迹象。

4.The new model features an improved athwartship carrier design for better load management.

新型号采用了改进的横向支架设计，以更好地管理负载。

5.The athwartship carrier helps distribute weight evenly across the hull.

这个横向支架有助于将重量均匀分布在船体上。

作文

In the world of naval architecture and marine engineering, terms often carry specific meanings that are crucial for understanding the design and functionality of various vessels. One such term is athwartship carrier, which refers to a type of structure or component on a ship that runs across the width of the vessel. This term is significant in the context of shipbuilding and naval operations, as it relates to how weight is distributed and how different parts of the ship interact with one another. Understanding the concept of athwartship carrier is essential for anyone involved in maritime activities, from engineers to sailors.To grasp the importance of an athwartship carrier, one must first consider the basic principles of ship design. Ships are designed to be stable and seaworthy, meaning they must be able to withstand various forces while navigating through water. The distribution of weight and structural integrity are vital components of this stability. An athwartship carrier plays a crucial role in this aspect by providing support across the ship’s beam, effectively distributing loads and helping to maintain balance.For example, in aircraft carriers, which are among the largest ships in the world, the presence of athwartship carriers is critical for supporting the flight deck and ensuring that it can handle the weight of aircraft and equipment. Without these carriers, the deck could sag or even collapse under the immense weight, leading to catastrophic failures. Thus, the engineering behind an athwartship carrier is not only about strength but also about ensuring safety and functionality in various maritime conditions.Moreover, athwartship carriers also contribute to the overall design flexibility of a ship. By incorporating these structures into the ship's design, engineers can create more versatile layouts that accommodate different types of cargo, machinery, or even living quarters for crew members. This adaptability is particularly important in modern naval operations, where ships may need to perform multiple roles, from combat to humanitarian assistance.In addition to their structural benefits, athwartship carriers can also influence a ship's performance. The way a vessel handles waves, wind, and other environmental factors can be significantly affected by the placement and design of these carriers. A well-designed athwartship carrier can enhance a ship's maneuverability and speed, making it more effective in various operational scenarios. This is why naval architects pay close attention to the design and placement of these components during the planning stages of ship construction.Furthermore, understanding the concept of athwartship carrier extends beyond just the physical structures on a ship. It also encompasses the broader implications of naval design and engineering practices. As technology advances, the materials and methods used to create these carriers are evolving, leading to stronger, lighter, and more efficient designs. This evolution reflects the ongoing quest for innovation in the maritime industry, where efficiency and safety are paramount.In conclusion, the term athwartship carrier embodies a critical element of ship design and functionality. From providing structural support to enhancing performance and adaptability, these carriers are integral to the safety and effectiveness of naval vessels. For anyone involved in maritime activities, a solid understanding of what an athwartship carrier is and its significance in shipbuilding is essential. As we continue to explore the depths of our oceans and expand our naval capabilities, the importance of such concepts will only grow, highlighting the intricate relationship between engineering and maritime exploration.

在海洋建筑和海洋工程的世界中，术语通常承载着特定的含义，这些含义对于理解各种船只的设计和功能至关重要。其中一个术语是athwartship carrier，它指的是一种结构或组件，横跨船只的宽度。这个术语在造船和海军操作的背景下具有重要意义，因为它与船体的重量分布以及船只不同部分之间的相互作用有关。理解athwartship carrier的概念对于任何参与海事活动的人来说都是必不可少的，从工程师到水手。要掌握athwartship carrier的重要性，首先必须考虑船舶设计的基本原则。船舶设计旨在保持稳定和适航，这意味着它们必须能够在水中航行时承受各种力量。重量的分布和结构的完整性是这种稳定性的关键组成部分。athwartship carrier在这一方面发挥着至关重要的作用，通过提供跨越船体宽度的支撑，有效地分配负载并帮助保持平衡。例如，在航空母舰中，作为世界上最大的船只之一，athwartship carriers的存在对支持飞行甲板至关重要，并确保其能够承受飞机和设备的重量。如果没有这些支撑，甲板可能会下垂甚至在巨大的重量下坍塌，导致灾难性的故障。因此，athwartship carrier背后的工程不仅仅关乎强度，还关乎在各种海事条件下确保安全和功能性。此外，athwartship carriers还促进了船舶整体设计的灵活性。通过将这些结构纳入船舶设计中，工程师可以创建更具多样化的布局，以适应不同类型的货物、机械，甚至是船员的居住区。这种适应性在现代海军操作中尤为重要，因为船只可能需要执行多种角色，从作战到人道主义援助。除了结构上的好处，athwartship carriers还可以影响船舶的性能。一艘船如何处理波浪、风和其他环境因素，可能会因这些支撑的设计和位置而显著改变。设计良好的athwartship carrier可以增强船舶的机动性和速度，使其在各种操作场景中更具有效性。这就是为什么海军建筑师在船舶建造的规划阶段特别关注这些组件的设计和位置。此外，理解athwartship carrier的概念超越了船上的物理结构。它还涵盖了海军设计和工程实践的更广泛含义。随着技术的进步，用于制造这些支撑的材料和方法正在不断演变，导致更强、更轻、更高效的设计。这种演变反映了海事行业中对创新的持续追求，在这里，效率和安全至关重要。总之，术语athwartship carrier体现了船舶设计和功能的关键元素。从提供结构支撑到增强性能和适应性，这些支撑对于海军舰艇的安全性和有效性至关重要。对于任何参与海事活动的人来说，深入理解athwartship carrier的含义及其在造船中的重要性是必不可少的。随着我们继续探索海洋深处并扩大我们的海军能力，这些概念的重要性只会增加，突显出工程与海洋探索之间的复杂关系。