annular bridging

简明释义

环状桥堵;

英英释义

例句

1.During the inspection, we noted the effectiveness of annular bridging in reducing stress concentrations.

在检查过程中，我们注意到环形桥接在减少应力集中方面的有效性。

2.To enhance stability, the design included annular bridging around the central shaft.

为了增强稳定性，设计中在中央轴周围包含了环形桥接。

3.The engineers discussed the challenges of implementing annular bridging in the new pipeline project.

工程师们讨论了在新管道项目中实施环形桥接的挑战。

4.The report highlighted the advantages of using annular bridging in offshore drilling operations.

报告强调了在海上钻探作业中使用环形桥接的优势。

5.The annular bridging technique was crucial for the structural integrity of the building.

该环形桥接技术对建筑的结构完整性至关重要。

作文

In the field of engineering and architecture, various techniques are employed to ensure structural integrity and stability. One such technique is known as annular bridging, which plays a crucial role in the design of certain structures. To understand annular bridging, it is essential to first grasp the concept of bridging itself. Bridging refers to the use of materials or structures to connect two points, providing support and stability. In the case of annular bridging, this connection forms a ring-like structure that distributes loads evenly across its circumference.The significance of annular bridging can be observed in various applications, including bridges, tunnels, and even certain types of buildings. By employing this technique, engineers can create robust designs that withstand external forces, such as wind, seismic activity, and weight from above. For instance, in bridge construction, annular bridging can help to minimize the bending moments that occur when heavy vehicles pass over, thereby reducing the risk of structural failure.Moreover, annular bridging allows for greater flexibility in design. When architects incorporate this technique into their plans, they can create open spaces without the need for numerous supporting columns. This not only enhances the aesthetic appeal of a structure but also maximizes the usable area within it. An example of this can be seen in modern sports arenas, where large, open seating areas are achieved through the implementation of annular bridging principles.The application of annular bridging is not limited to large-scale projects; it can also be beneficial in smaller constructions. Home builders may utilize this technique to create stronger foundations or to support roofs that span wide distances without additional support. This versatility makes annular bridging an invaluable aspect of contemporary construction practices.Furthermore, the understanding of annular bridging is continuously evolving with advancements in technology. Engineers now have access to sophisticated software that enables them to simulate the behavior of structures under various conditions. This allows for more precise calculations and optimizations when designing elements that incorporate annular bridging. As a result, structures can be built with increased safety margins, ensuring the well-being of occupants and users.In conclusion, annular bridging is a vital technique in the realms of engineering and architecture. Its ability to provide stability, enhance design flexibility, and adapt to technological advancements makes it a cornerstone of modern construction. Whether in the form of bridges, buildings, or other infrastructures, the principles of annular bridging continue to shape the way we approach structural design. As we move forward, it is crucial to recognize the importance of such techniques and to integrate them thoughtfully into our engineering practices to create safe and sustainable environments for future generations.

在工程和建筑领域，各种技术被用来确保结构的完整性和稳定性。其中一种技术被称为环形桥接，在某些结构的设计中发挥着至关重要的作用。要理解环形桥接，首先必须掌握桥接本身的概念。桥接是指使用材料或结构连接两个点，提供支持和稳定性。在环形桥接的情况下，这种连接形成一个环状结构，均匀分配其周围的负载。环形桥接的重要性可以在各种应用中观察到，包括桥梁、隧道甚至某些类型的建筑。通过采用这种技术，工程师可以创建坚固的设计，以承受外部力量，例如风、地震活动和上方的重量。例如，在桥梁建设中，环形桥接可以帮助最小化当重型车辆经过时产生的弯矩，从而降低结构失效的风险。此外，环形桥接还允许设计上的更大灵活性。当建筑师将这一技术纳入他们的计划时，他们可以创建没有众多支撑柱的开放空间。这不仅增强了结构的美观性，还最大化了内部的可用面积。这一点在现代体育场馆中得到了体现，那里通过实施环形桥接原理实现了大型开放的座位区域。环形桥接的应用并不限于大规模项目；它在较小的建筑中也可以带来好处。房屋建筑商可能会利用这一技术来创建更强的基础或支持跨越宽距离而不需要额外支撑的屋顶。这种多功能性使得环形桥接成为当代建筑实践中不可或缺的一个方面。此外，随着技术的进步，对环形桥接的理解也在不断发展。工程师现在可以使用复杂的软件来模拟结构在各种条件下的行为。这使得在设计包含环形桥接的元素时，可以进行更精确的计算和优化。因此，结构可以在增加安全边际的情况下建造，确保居住者和使用者的安全。总之，环形桥接是工程和建筑领域的一项重要技术。它提供稳定性、增强设计灵活性以及适应技术进步的能力，使其成为现代建筑的基石。无论是桥梁、建筑还是其他基础设施，环形桥接的原则继续塑造我们对结构设计的方式。随着我们向前发展，认识到这些技术的重要性，并将其合理整合到我们的工程实践中，以为未来几代人创造安全和可持续的环境，是至关重要的。