backstay cable
简明释义
拉索;
英英释义
A backstay cable is a type of tensioned cable used to support the mast of a sailing vessel, providing stability and preventing it from falling backward. | 背撑缆是一种用于支撑帆船桅杆的拉紧缆绳,提供稳定性并防止桅杆向后倾倒。 |
例句
1.Before setting sail, make sure the backstay cable is properly secured.
在起航前,确保背桅索已正确固定。
2.A broken backstay cable can lead to serious sailing issues.
断裂的背桅索可能导致严重的航行问题。
3.The backstay cable helps maintain the mast's position against strong winds.
背桅索帮助保持桅杆在强风中的位置。
4.During the race, the crew adjusted the backstay cable to optimize sail performance.
在比赛中,船员调整了背桅索以优化帆的性能。
5.The yacht's stability is enhanced by the tension in the backstay cable.
游艇的稳定性通过背桅索的张力得以增强。
作文
In the world of engineering and architecture, understanding the various components that contribute to the stability and strength of structures is crucial. One such component is the backstay cable, which plays a vital role in maintaining the integrity of tall structures, particularly in the field of bridge construction and large buildings. The backstay cable is essentially a tensioned cable that provides support to vertical elements, helping to counteract lateral forces that could potentially cause instability.The importance of the backstay cable can be observed in many iconic structures around the world. For instance, in suspension bridges, the backstay cable works in conjunction with the main cables to ensure that the bridge remains stable under varying loads and environmental conditions. The tension in these cables helps to distribute the weight evenly, preventing any one part of the structure from bearing too much stress.Moreover, the backstay cable is not only limited to bridges; it is also commonly used in the construction of skyscrapers. As buildings rise higher, they become more susceptible to wind forces. The backstay cable acts as a stabilizing element, anchoring the building and allowing it to withstand strong gusts of wind. This is particularly important in urban areas where tall buildings are closely packed together, creating a unique wind environment that can challenge structural integrity.The installation of backstay cables requires careful planning and engineering. Engineers must calculate the appropriate tension needed in the cables to ensure that they provide adequate support without compromising the overall design of the structure. Additionally, the materials used for these cables are selected based on their strength, durability, and resistance to environmental factors such as corrosion. Common materials include steel and synthetic fibers, both of which offer high tensile strength and longevity.Safety is another critical aspect when dealing with backstay cables. Regular inspections and maintenance are necessary to identify any signs of wear or damage that could compromise their effectiveness. Engineers use various techniques to assess the condition of the cables, including visual inspections and advanced testing methods. By ensuring the backstay cables are in good condition, engineers can help prevent catastrophic failures that could endanger lives and property.In conclusion, the backstay cable is an essential component in modern engineering, providing stability and support to some of the most impressive structures in our world. Its ability to counteract lateral forces makes it invaluable in both bridge construction and high-rise buildings. As we continue to push the limits of architectural design, understanding and utilizing the backstay cable will remain a fundamental aspect of creating safe and resilient structures. The future of engineering will undoubtedly see advancements in materials and techniques related to backstay cables, further enhancing their effectiveness and reliability in the ever-evolving landscape of construction.
在工程和建筑的世界中,理解构成结构稳定性和强度的各种组件至关重要。其中一个组件是backstay cable,它在维护高大结构的完整性方面发挥着重要作用,尤其是在桥梁建设和大型建筑领域。backstay cable本质上是一种张紧的电缆,为垂直元素提供支持,帮助抵消可能导致不稳定的侧向力。backstay cable的重要性可以在世界各地许多标志性结构中观察到。例如,在悬索桥中,backstay cable与主缆一起工作,以确保桥梁在不同的负载和环境条件下保持稳定。这些电缆中的张力有助于均匀分配重量,防止结构的任何一部分承受过多的压力。此外,backstay cable不仅限于桥梁;它也常用于摩天大楼的建设中。随着建筑物的高度增加,它们变得更加容易受到风力的影响。backstay cable作为一种稳定元素,锚定建筑物,使其能够抵御强风。这在城市地区尤为重要,因为高楼大厦紧密相连,形成独特的风环境,可能挑战结构的完整性。backstay cable的安装需要仔细的规划和工程设计。工程师必须计算出电缆所需的适当张力,以确保它们提供足够的支持而不影响结构的整体设计。此外,选择用于这些电缆的材料时会考虑其强度、耐久性以及对腐蚀等环境因素的抵抗能力。常用的材料包括钢和合成纤维,这两者都具有高拉伸强度和耐用性。安全性是处理backstay cable的另一个关键方面。定期检查和维护是必要的,以识别任何磨损或损坏的迹象,这可能会影响其有效性。工程师使用各种技术来评估电缆的状况,包括目视检查和先进的测试方法。通过确保backstay cables的良好状态,工程师可以帮助防止可能危及生命和财产的灾难性故障。总之,backstay cable是现代工程中的一个基本组成部分,为我们世界上一些最令人印象深刻的结构提供稳定性和支持。它抵消侧向力的能力使其在桥梁建设和高层建筑中不可或缺。随着我们继续推动建筑设计的极限,理解和利用backstay cable将始终是创建安全和韧性结构的基本方面。工程的未来无疑会看到与backstay cables相关的材料和技术的进步,进一步增强其在不断发展的建筑景观中的有效性和可靠性。
相关单词
