bottom tension

简明释义

海底张力;

英英释义

例句

1.The engineer adjusted the bottom tension to improve the stability of the structure.

工程师调整了底部张力以提高结构的稳定性。

2.The construction team monitored the bottom tension during the installation of the beams.

施工队在安装梁时监测了底部张力。

3.Adjusting the bottom tension can significantly affect the performance of the machine.

调整底部张力可以显著影响机器的性能。

4.The technician measured the bottom tension in the cable to ensure it was within safe limits.

技术员测量了电缆中的底部张力以确保其在安全范围内。

5.In the sailing competition, maintaining the correct bottom tension of the sail is crucial for speed.

在帆船比赛中，保持帆的正确底部张力对速度至关重要。

作文

In the world of engineering and construction, understanding the concept of bottom tension is crucial for ensuring the stability and safety of various structures. Bottom tension refers to the force that acts at the lower part of a structure, such as a cable-stayed bridge or a suspension bridge. This force is essential in maintaining the equilibrium of the structure, preventing it from collapsing under its own weight or external loads. Engineers must calculate bottom tension accurately to design safe and effective support systems. One of the most notable examples of bottom tension can be observed in the design of suspension bridges. In these structures, the main cables are suspended between tall towers and support the bridge deck through vertical suspenders. The tension in the cables creates a downward force that is countered by the bottom tension acting on the supports. Without proper management of this tension, the bridge could experience excessive swaying or even structural failure. Moreover, bottom tension is not limited to large-scale engineering projects. It also plays a significant role in smaller structures, such as residential buildings and towers. For instance, when constructing a high-rise building, engineers must consider the bottom tension exerted by the weight of the building itself as well as any additional loads, such as furniture and occupants. This ensures that the foundation can adequately support the structure without risk of settling or shifting over time.The importance of bottom tension extends beyond just physical structures; it also applies to various materials used in construction. For example, when using cables or ropes in lifting operations, understanding the bottom tension is vital to prevent accidents. If the tension is too high, the material may fail, leading to potential injuries or damage. Therefore, safety guidelines often emphasize the need to monitor and manage bottom tension during such operations. In conclusion, the concept of bottom tension is a fundamental principle in engineering and construction. It is essential for maintaining the integrity of structures and ensuring their safety. By carefully calculating and managing bottom tension, engineers can design buildings and bridges that withstand various forces and remain stable over time. As we continue to develop more complex structures, the significance of understanding bottom tension will only grow, highlighting the need for ongoing education and research in this critical area of engineering.

在工程和建筑的世界中，理解“bottom tension”这一概念对于确保各种结构的稳定性和安全性至关重要。“bottom tension”指的是作用于结构下部的力，例如在斜拉桥或悬索桥中。这种力量对于维持结构的平衡是必不可少的，防止其在自重或外部负载下倒塌。工程师必须准确计算“bottom tension”以设计安全有效的支撑系统。最显著的“bottom tension”示例可以在悬索桥的设计中观察到。在这些结构中，主缆在高塔之间悬挂，并通过垂直吊索支撑桥面。缆索中的张力产生一个向下的力，这个力被作用在支撑上的“bottom tension”所抵消。如果不妥善管理这种张力，桥梁可能会经历过度摆动，甚至发生结构故障。此外，“bottom tension”不仅限于大型工程项目。它在较小的结构中同样发挥着重要作用，例如住宅建筑和塔楼。例如，在建造高层建筑时，工程师必须考虑建筑本身的重量以及任何额外负载（如家具和居住者）施加的“bottom tension”。这确保了基础能够充分支撑结构，而不会随着时间的推移而出现沉降或位移的风险。“bottom tension”的重要性不仅限于物理结构，它还适用于建筑中使用的各种材料。例如，在提升操作中使用电缆或绳索时，理解“bottom tension”对于防止事故至关重要。如果张力过高，材料可能会失效，导致潜在的伤害或损坏。因此，安全指南通常强调在此类操作中监测和管理“bottom tension”的必要性。总之，“bottom tension”的概念是工程和建筑中的基本原理。它对于维护结构的完整性和确保其安全性至关重要。通过仔细计算和管理“bottom tension”，工程师可以设计出能够承受各种力量并保持稳定的建筑和桥梁。随着我们继续开发更复杂的结构，理解“bottom tension”的重要性只会增加，突显出在这一关键工程领域持续教育和研究的必要性。