high—strength bolted friction—type joint

简明释义

摩擦型高强度螺栓连接

英英释义

例句

1.The assembly process included tightening the high—strength bolted friction—type joint to the specified torque.

组装过程中包括将高强度螺栓摩擦型接头拧紧到规定的扭矩。

2.Using a high—strength bolted friction—type joint reduces the risk of joint failure in dynamic loads.

使用高强度螺栓摩擦型接头可以降低动态负载下接头失效的风险。

3.The construction team used a high—strength bolted friction—type joint to ensure the structural integrity of the bridge.

施工团队使用了一个高强度螺栓摩擦型接头以确保桥梁的结构完整性。

4.The engineers specified a high—strength bolted friction—type joint for the steel frame to withstand heavy loads.

工程师为钢框架指定了一个高强度螺栓摩擦型接头以承受重载。

5.In seismic design, a high—strength bolted friction—type joint can provide better energy dissipation.

在抗震设计中，高强度螺栓摩擦型接头可以提供更好的能量耗散。

作文

In the field of structural engineering, the choice of connection methods plays a crucial role in ensuring the integrity and safety of a structure. One such method that has gained significant attention is the high—strength bolted friction—type joint. This type of joint is designed to provide a robust and reliable connection between structural elements, particularly in steel constructions. The primary advantage of using a high—strength bolted friction—type joint lies in its ability to resist shear forces through friction rather than relying solely on bearing or shear strength of the bolts. The high—strength bolted friction—type joint operates on the principle of clamping two surfaces together with high-strength bolts. When these bolts are tightened, they create a clamping force that generates friction between the connected surfaces. This frictional resistance is what ultimately helps to transfer loads between the components. As a result, the design of the joint must ensure that sufficient clamping force is applied to achieve the desired level of friction. One of the key characteristics of a high—strength bolted friction—type joint is its ability to maintain performance under dynamic loading conditions. In structures subjected to seismic or wind forces, traditional connection methods may experience slippage or failure. However, the friction-based mechanism of this joint type allows it to remain stable even under such challenging conditions. This makes it an excellent choice for critical applications where safety is paramount.Moreover, the use of high—strength bolted friction—type joints can lead to efficient construction practices. Since these joints do not require welding, which can be time-consuming and requires skilled labor, they can significantly reduce construction time and costs. Additionally, the ease of installation and inspection of bolted connections enhances the overall efficiency of the building process.However, it is essential to consider some challenges associated with high—strength bolted friction—type joints. Proper surface preparation is crucial to ensure that the frictional surfaces are clean and free of contaminants. Any dirt, rust, or oil can diminish the effectiveness of the joint, leading to potential failures. Therefore, engineers must implement stringent quality control measures during the construction phase to maintain the integrity of these connections.In conclusion, the high—strength bolted friction—type joint represents a significant advancement in connection technology within structural engineering. Its ability to provide reliable load transfer through friction, coupled with the advantages of ease of installation and performance under dynamic loads, makes it a preferred choice for many modern structures. As we continue to push the boundaries of engineering and construction, understanding and effectively utilizing methods like the high—strength bolted friction—type joint will be vital in achieving safer and more efficient designs.

在结构工程领域，连接方法的选择对于确保结构的完整性和安全性至关重要。其中一种备受关注的方法是高强度螺栓摩擦型连接。这种类型的连接设计用于在结构元件之间提供稳健可靠的连接，尤其是在钢结构中。使用高强度螺栓摩擦型连接的主要优点在于它能够通过摩擦而不是仅仅依赖螺栓的承载或剪切强度来抵抗剪切力。高强度螺栓摩擦型连接的工作原理是将两个表面用高强度螺栓夹紧。当这些螺栓被拧紧时，它们会产生一个夹紧力，从而在连接的表面之间产生摩擦。这种摩擦阻力最终帮助在组件之间传递负载。因此，连接的设计必须确保施加足够的夹紧力以实现所需的摩擦水平。高强度螺栓摩擦型连接的一个关键特征是其在动态加载条件下保持性能的能力。在受到地震或风力作用的结构中，传统的连接方法可能会经历滑动或失效。然而，这种连接类型的基于摩擦的机制使其即使在如此严峻的条件下也能保持稳定。这使其成为安全性至关重要的关键应用的绝佳选择。此外，使用高强度螺栓摩擦型连接可以导致高效的施工实践。由于这些连接不需要焊接，而焊接过程通常耗时且需要熟练的劳动力，因此可以显著减少施工时间和成本。此外，螺栓连接的安装和检查的便利性增强了整体建筑过程的效率。然而，必须考虑与高强度螺栓摩擦型连接相关的一些挑战。适当的表面准备对于确保摩擦表面清洁且无污染物至关重要。任何污垢、生锈或油脂都可能降低连接的有效性，导致潜在的故障。因此，工程师必须在施工阶段实施严格的质量控制措施，以维护这些连接的完整性。总之，高强度螺栓摩擦型连接代表了结构工程中连接技术的重要进步。它通过摩擦提供可靠的负载传递的能力，加上安装方便和在动态负载下的性能优势，使其成为许多现代结构的首选。随着我们不断推动工程和建筑的界限，理解和有效利用像高强度螺栓摩擦型连接这样的方法将在实现更安全、更高效的设计中至关重要。