warping bridge

简明释义

船尾桥楼

英英释义

例句

1.During the storm, the warping bridge swayed dangerously, but it held up.

在暴风雨中，变形桥摇晃得非常危险，但它仍然坚挺。

2.The warping bridge was a marvel of modern engineering, adapting to the environmental changes.

变形桥是现代工程的奇迹，能够适应环境变化。

3.The construction of the warping bridge required innovative materials to ensure flexibility.

建设变形桥需要创新材料以确保其灵活性。

4.The engineers designed a new warping bridge to accommodate the changing landscape.

工程师们设计了一座新的变形桥以适应不断变化的地形。

5.Local authorities decided to close the warping bridge for safety inspections after heavy rains.

在大雨过后，当地当局决定关闭变形桥进行安全检查。

作文

In the field of engineering and architecture, the term warping bridge refers to a specialized structure designed to accommodate the natural expansion and contraction of materials due to temperature changes. This concept is especially important in regions with significant temperature fluctuations, where traditional bridges may suffer from structural integrity issues over time. The warping bridge employs innovative design techniques that allow it to flex and adapt without compromising its strength or safety.One of the primary advantages of a warping bridge is its ability to enhance durability. By allowing for movement, these bridges can prevent cracks and other forms of wear that typically occur in static structures. For instance, during hot summer months, materials like steel and concrete can expand, leading to stress on fixed joints. A warping bridge, however, is constructed with expansion joints and flexible bearings that mitigate these stresses, ensuring that the bridge remains functional and safe for vehicular and pedestrian traffic.Moreover, the aesthetic appeal of a warping bridge cannot be overlooked. Engineers and architects often design these structures with both form and function in mind. The graceful curves and flowing lines of a warping bridge can create stunning visual effects that enhance the surrounding landscape. Some of the most iconic bridges around the world utilize this concept, blending engineering excellence with artistic expression.The construction of a warping bridge involves advanced materials and technologies. Engineers must select materials that possess the right combination of flexibility and strength. For example, composite materials are increasingly being used in modern bridge designs due to their lightweight yet durable properties. These materials can withstand harsh environmental conditions while providing the necessary flexibility to accommodate movement.Additionally, the design process for a warping bridge requires sophisticated modeling techniques. Computer-aided design (CAD) software allows engineers to simulate various scenarios, including extreme weather events, to ensure that the bridge can withstand potential challenges. By predicting how the structure will behave under different conditions, engineers can make informed decisions that enhance the bridge's overall performance.Sustainability is another critical factor in the development of a warping bridge. As the world becomes more focused on reducing carbon footprints, engineers are tasked with creating structures that minimize environmental impact. The use of recycled materials and energy-efficient construction methods are essential components of modern bridge design. A well-designed warping bridge not only serves its purpose but also contributes positively to the environment.In conclusion, the warping bridge represents a significant advancement in bridge engineering, combining functionality with aesthetic appeal. Its ability to adapt to environmental changes ensures longevity and safety, making it an ideal choice for areas prone to temperature variations. As technology continues to evolve, we can expect to see even more innovative designs that push the boundaries of what is possible in bridge construction. The future of infrastructure lies in understanding and embracing concepts like the warping bridge, paving the way for resilient and sustainable structures that stand the test of time.

在工程和建筑领域，术语warping bridge指的是一种专门设计的结构，旨在适应由于温度变化而导致的材料自然膨胀和收缩。这一概念在温差显著的地区尤为重要，因为传统桥梁可能会随着时间的推移遭受结构完整性问题。warping bridge采用创新的设计技术，使其能够灵活适应，而不影响其强度或安全性。warping bridge的主要优点之一是增强耐久性。通过允许运动，这些桥梁可以防止静态结构中通常出现的裂缝和其他磨损。例如，在炎热的夏季，钢材和混凝土等材料可能会膨胀，导致固定接头上的应力。然而，warping bridge的构造具有膨胀接头和柔性支承，可以缓解这些应力，确保桥梁对车辆和行人交通保持功能性和安全性。此外，warping bridge的美学吸引力也不容忽视。工程师和建筑师通常在设计这些结构时兼顾形式与功能。warping bridge优雅的曲线和流畅的线条可以创造出令人惊叹的视觉效果，提升周围景观的美感。世界上一些最具标志性的桥梁都利用了这一概念，将工程卓越与艺术表现融合在一起。warping bridge的建造涉及先进的材料和技术。工程师必须选择具有适当灵活性和强度组合的材料。例如，复合材料在现代桥梁设计中越来越多地被使用，因为它们具有轻巧但耐用的特性。这些材料能够承受恶劣的环境条件，同时提供必要的灵活性以适应运动。此外，warping bridge的设计过程需要复杂的建模技术。计算机辅助设计（CAD）软件使工程师能够模拟各种场景，包括极端天气事件，以确保桥梁能够承受潜在挑战。通过预测结构在不同条件下的行为，工程师可以做出明智的决定，从而提高桥梁的整体性能。可持续性是warping bridge开发中的另一个关键因素。随着世界越来越关注减少碳足迹，工程师被要求创建对环境影响最小的结构。回收材料和节能施工方法的使用是现代桥梁设计的重要组成部分。一座设计良好的warping bridge不仅能发挥其作用，还能对环境产生积极贡献。总之，warping bridge代表了桥梁工程的一项重要进展，将功能性与美学吸引力结合在一起。它适应环境变化的能力确保了其耐久性和安全性，使其成为温差频繁地区的理想选择。随着技术的不断发展，我们可以期待看到更多创新设计，推动桥梁建设的可能性界限。基础设施的未来在于理解和接受像warping bridge这样的概念，为经得起时间考验的韧性和可持续结构铺平道路。