tension brace

简明释义

牵条

英英释义

例句

1.The tension brace helps to prevent lateral movement in the framework.

拉力支撑有助于防止框架的横向移动。

2.Without the tension brace, the bridge would have collapsed under heavy loads.

没有拉力支撑，桥梁在重载下会崩溃。

3.The construction team added a tension brace to enhance stability in the high-rise building.

施工队在高层建筑中增加了一个拉力支撑以增强稳定性。

4.During the inspection, we noticed that one tension brace was damaged and needed replacement.

在检查过程中，我们注意到一个拉力支撑受损，需要更换。

5.The engineer installed a new tension brace to support the structure during the storm.

工程师安装了一个新的拉力支撑以在风暴期间支持结构。

作文

In the realm of engineering and construction, the term tension brace plays a crucial role in ensuring the stability and integrity of structures. A tension brace is a structural element that is designed to withstand tensile forces, which are forces that attempt to pull or stretch an object. These braces are typically used in frameworks, such as buildings, bridges, and towers, to provide additional support and prevent deformation under various loads. Understanding the function and importance of tension braces can greatly enhance our appreciation for modern engineering practices.The primary purpose of a tension brace is to resist tension forces that may arise due to wind, seismic activity, or other external pressures. For instance, in tall buildings, the lateral forces caused by strong winds can exert significant stress on the structure. By incorporating tension braces into the design, engineers can effectively distribute these forces and maintain the building’s stability. This not only protects the structure itself but also ensures the safety of its occupants.There are various types of tension braces used in construction, each designed for specific applications. One common type is the diagonal brace, which is often installed at an angle to the main structural elements. This configuration allows the brace to effectively counteract tension forces by transferring them to the adjacent beams or columns. Another type is the cable brace, which utilizes high-strength cables to provide flexibility and strength. Cable braces are particularly useful in areas prone to seismic activity, as they can absorb and dissipate energy more effectively than traditional braces.The selection of appropriate materials for tension braces is also vital for their performance. Engineers often choose materials such as steel or reinforced concrete due to their high tensile strength and durability. The choice of material can significantly influence the overall design and cost of a project. Additionally, the installation process of tension braces requires careful consideration to ensure that they are properly anchored and aligned to handle the expected loads.Moreover, the integration of tension braces into a structure can also have aesthetic implications. Many architects and engineers strive to create visually appealing designs while maintaining structural integrity. Exposed tension braces, for example, can add an industrial charm to a building, showcasing the engineering behind the architecture. This balance between functionality and aesthetics is a hallmark of modern design philosophy.In conclusion, the concept of tension brace is fundamental in the field of engineering and construction. These structural elements not only enhance the safety and stability of buildings and other structures but also contribute to the overall design and aesthetic appeal. As we continue to advance in engineering techniques and materials, the role of tension braces will remain vital in shaping the future of construction. Understanding their function and importance can lead to better design practices and ultimately safer and more resilient structures.

在工程和建筑领域，术语tension brace在确保结构的稳定性和完整性方面发挥着至关重要的作用。tension brace是一种结构元素，旨在承受拉力，即试图拉伸或拉扯物体的力。这些支撑通常用于框架，例如建筑、桥梁和塔，以提供额外的支持并防止在各种负载下变形。理解tension braces的功能和重要性可以大大增强我们对现代工程实践的欣赏。tension brace的主要目的是抵抗由于风、地震活动或其他外部压力引起的拉力。例如，在高层建筑中，由强风造成的横向力会对结构施加显著的压力。通过将tension braces纳入设计，工程师可以有效分配这些力并保持建筑的稳定性。这不仅保护了结构本身，还确保了其居住者的安全。建筑中使用的tension braces有多种类型，每种类型都设计用于特定的应用。其中一种常见类型是对角支撑，通常以角度安装在主要结构元素上。这种配置使支撑能够有效抵消拉力，通过将其转移到相邻的梁或柱上。另一种类型是缆索支撑，利用高强度缆索提供灵活性和强度。缆索支撑在地震活动频繁的地区特别有用，因为它们比传统支撑能更有效地吸收和耗散能量。选择适当的材料用于tension braces对其性能也至关重要。工程师通常选择钢或钢筋混凝土等材料，因为它们具有高拉伸强度和耐久性。材料的选择可能会显著影响项目的整体设计和成本。此外，安装tension braces的过程需要仔细考虑，以确保它们正确锚定和对齐，以应对预期的负载。此外，将tension braces融入结构中也可能对美学产生影响。许多建筑师和工程师努力在保持结构完整性的同时创造视觉上令人愉悦的设计。例如，裸露的tension braces可以为建筑增添一种工业魅力，展示建筑背后的工程。这种功能与美学之间的平衡是现代设计理念的标志。总之，tension brace的概念在工程和建筑领域是基础性的。这些结构元素不仅增强了建筑和其他结构的安全性和稳定性，还对整体设计和美学吸引力做出了贡献。随着我们在工程技术和材料上的不断进步，tension braces的作用将在塑造未来建筑中继续至关重要。理解它们的功能和重要性可以导致更好的设计实践，最终实现更安全、更具韧性的结构。