end anchorage

简明释义

端部锚具

英英释义

例句

1.The end anchorage (端锚固) must be checked regularly to prevent any potential failures.

必须定期检查<端锚固>（end anchorage），以防止潜在的故障。

2.The design of the cable system included a robust end anchorage (端锚固) to withstand high winds.

电缆系统的设计包括一个坚固的<端锚固>（end anchorage），以承受强风。

3.The construction team ensured that the end anchorage (端锚固) was properly installed to support the structural integrity of the bridge.

施工团队确保了<端锚固>（end anchorage）被正确安装，以支持桥梁的结构完整性。

4.Properly aligning the end anchorage (端锚固) is crucial for the safety of the entire structure.

正确对齐<端锚固>（end anchorage）对整个结构的安全至关重要。

5.During the inspection, the engineer noted that the end anchorage (端锚固) needed reinforcement due to wear and tear.

在检查中，工程师注意到<端锚固>（end anchorage）由于磨损需要加固。

作文

In the world of engineering and construction, the term end anchorage plays a crucial role in ensuring the stability and safety of structures. It refers to a specific point where a structural element, such as a cable or a beam, is secured at its end to prevent movement or displacement. This concept is vital in various applications, including bridges, buildings, and other infrastructures that rely on tensile and compressive forces to maintain their integrity.To better understand end anchorage, we can consider its application in bridge design. When engineers construct a suspension bridge, they use cables to support the weight of the bridge deck. These cables must be anchored securely at both ends to ensure that the entire structure remains stable under load. The end anchorage serves as the foundation for these cables, transferring forces into the ground and preventing any unwanted movement that could lead to structural failure.Moreover, the effectiveness of end anchorage is not only determined by the materials used but also by the design of the anchorage itself. For instance, a well-designed anchorage can distribute forces evenly, reducing stress concentrations that could weaken the structure over time. Engineers must carefully calculate the required strength and durability of the anchorage to accommodate various loads, including those from traffic, wind, and seismic activity.In addition to bridges, end anchorage is also essential in the construction of tall buildings. In skyscrapers, tension cables are often used to stabilize the structure against lateral forces caused by wind. These cables must be anchored at their ends to the building's core or foundation, ensuring that they can effectively counteract any swaying or movement. Without proper end anchorage, the building could experience significant deformation, compromising its safety and longevity.Furthermore, the concept of end anchorage extends beyond traditional construction. In the field of rock climbing, climbers utilize anchors to secure themselves to the rock face. These anchors, much like the ones in engineering, must be placed strategically to ensure safety. A poorly placed anchor could lead to a fall, highlighting the importance of understanding how end anchorage functions in various contexts.In conclusion, the term end anchorage encapsulates a fundamental principle in engineering and construction that ensures the stability and safety of structures. Whether in bridges, skyscrapers, or even recreational activities like rock climbing, the effectiveness of end anchorage is critical for maintaining integrity under various loads. As we continue to innovate and improve our designs, understanding the principles behind end anchorage will remain essential for engineers and architects alike. Ultimately, mastering this concept not only contributes to safer structures but also to the advancement of engineering practices as a whole.

在工程和建筑的世界中，术语end anchorage在确保结构的稳定性和安全性方面起着至关重要的作用。它指的是一个特定的点，在这个点上，结构元素（如电缆或梁）在其末端被固定，以防止移动或位移。这个概念在各种应用中都是至关重要的，包括桥梁、建筑物和其他依赖拉力和压力保持完整性的基础设施。为了更好地理解end anchorage，我们可以考虑它在桥梁设计中的应用。当工程师建造悬索桥时，他们使用电缆来支撑桥面重量。这些电缆必须在两端牢固地锚定，以确保整个结构在负载下保持稳定。end anchorage作为这些电缆的基础，将力量传递到地面，并防止任何可能导致结构失效的意外移动。此外，end anchorage的有效性不仅取决于所用材料，还取决于锚固本身的设计。例如，设计良好的锚固可以均匀分配力量，减少应力集中，从而降低结构随着时间推移而削弱的风险。工程师必须仔细计算锚固所需的强度和耐久性，以适应包括交通、风和地震活动在内的各种负载。除了桥梁，end anchorage在高层建筑的建设中也是必不可少的。在摩天大楼中，通常使用拉紧电缆来稳定结构以抵御风引起的横向力量。这些电缆必须在其末端锚固到建筑的核心或基础，以确保它们能够有效地抵消任何摇摆或运动。如果没有适当的end anchorage，建筑物可能会经历显著的变形，从而危及其安全性和耐久性。此外，end anchorage的概念超越了传统建筑。在攀岩领域，攀登者利用锚固将自己固定在岩石表面。这些锚固就像工程中的锚固一样，必须战略性地放置以确保安全。一个放置不当的锚固可能导致摔倒，这突显了理解end anchorage在各种背景下如何运作的重要性。总之，术语end anchorage概括了工程和建筑中的一个基本原则，该原则确保了结构的稳定性和安全性。无论是在桥梁、摩天大楼，还是在攀岩等休闲活动中，end anchorage的有效性对在各种负载下保持完整性至关重要。随着我们继续创新和改善设计，理解end anchorage背后的原理将始终是工程师和建筑师的必要条件。最终，掌握这一概念不仅有助于更安全的结构，还有助于整个工程实践的进步。