ballast main

简明释义

压载水总管

英英释义

例句

1.During the storm, the crew monitored the ballast main closely.

在暴风雨期间，船员们密切监控着压舱水管。

2.The ship's stability was improved by adjusting the ballast main.

通过调整压舱水管，船只的稳定性得到了改善。

3.The ballast main system is crucial for maintaining the vessel's balance.

压舱水管系统对维持船只平衡至关重要。

4.Engineers inspected the ballast main to ensure it was functioning properly.

工程师检查了压舱水管以确保其正常运作。

5.A leak in the ballast main could lead to dangerous conditions at sea.

在海上，压舱水管的泄漏可能导致危险情况。

作文

In the world of engineering and construction, understanding the various components that contribute to the stability and functionality of structures is crucial. One such component is the ballast main, which plays a significant role in maintaining balance and stability in various applications, particularly in maritime and railway contexts. The term ballast main refers to the primary system or structure that holds ballast, which is material used to provide weight and stability. In ships, for example, ballast is essential for ensuring that the vessel remains upright and balanced as it navigates through water. Without an adequate ballast main, a ship could easily become unstable and capsize, posing serious risks to both the vessel and its crew.Similarly, in railway systems, the ballast main refers to the layer of crushed stone or gravel that supports the tracks. This layer is critical for distributing the weight of the trains and preventing the tracks from shifting or becoming misaligned. The effectiveness of the ballast main directly impacts the safety and efficiency of rail transport. Engineers must carefully design and maintain the ballast main to ensure that it can withstand the immense forces exerted by passing trains while providing a stable foundation.The importance of the ballast main extends beyond just stability; it also plays a vital role in drainage. Proper drainage is essential to prevent water accumulation, which can weaken the structure and lead to erosion. In both maritime and railway applications, the ballast main must be designed with drainage in mind to ensure longevity and safety. Engineers often employ various techniques to enhance the drainage capabilities of the ballast main, such as using permeable materials or incorporating drainage systems that redirect excess water away from the structure.Moreover, the choice of materials for the ballast main is crucial. In maritime applications, the ballast may consist of water, sand, or specialized materials that can be adjusted according to the vessel's needs. In contrast, railway ballast main typically consists of angular stones that interlock to create a stable base. The selection of appropriate materials not only affects the performance of the ballast main but also its maintenance requirements and overall lifespan.In conclusion, the ballast main is a fundamental component in both maritime and railway engineering, serving to provide stability, support, and drainage. Understanding its role and the factors that influence its performance is essential for engineers and construction professionals. As technology advances, the methods for designing and maintaining the ballast main continue to evolve, leading to safer and more efficient structures. Whether on the high seas or the railway tracks, the ballast main remains a critical element in ensuring the safety and reliability of transportation systems worldwide.

在工程和建筑的世界中，理解各种组成部分对于结构的稳定性和功能性至关重要。其中一个组成部分是压舱主，它在维护各种应用的平衡和稳定性方面发挥着重要作用，特别是在海事和铁路环境中。术语压舱主指的是持有压舱物的主要系统或结构，压舱物是用于提供重量和稳定性的材料。例如，在船只中，压舱物对于确保船只在水中航行时保持直立和平衡至关重要。如果没有足够的压舱主，船只可能会变得不稳定并倾覆，对船只及其船员造成严重风险。同样，在铁路系统中，压舱主指的是支撑轨道的碎石或砾石层。这一层对于分散列车的重量以及防止轨道移动或错位至关重要。压舱主的有效性直接影响到铁路运输的安全性和效率。工程师必须仔细设计和维护压舱主，以确保其能够承受经过列车施加的巨大力量，同时提供稳定的基础。压舱主的重要性不仅仅体现在稳定性上；它还在排水中发挥着至关重要的作用。适当的排水对于防止水积聚至关重要，积水可能会削弱结构并导致侵蚀。在海事和铁路应用中，压舱主必须考虑排水，以确保其耐久性和安全性。工程师通常采用各种技术来增强压舱主的排水能力，例如使用透水材料或结合排水系统，将多余的水引导远离结构。此外，压舱主的材料选择也至关重要。在海事应用中，压舱物可以由水、沙子或可根据船只需求调整的专用材料组成。相反，铁路压舱主通常由互锁的角石组成，以创建稳定的基础。适当材料的选择不仅影响压舱主的性能，还影响其维护要求和整体使用寿命。总之，压舱主是海事和铁路工程中的基本组成部分，旨在提供稳定性、支撑和排水。理解其作用及影响其性能的因素对于工程师和建筑专业人员至关重要。随着技术的进步，设计和维护压舱主的方法不断演变，导致更安全、更高效的结构。无论是在大海还是铁路上，压舱主仍然是确保全球运输系统安全和可靠的关键元素。