panting girder

简明释义

抗拍击桁

英英释义

例句

1.The construction crew carefully inspected the panting girder to ensure it could support the weight of the new bridge.

施工队仔细检查了呼吸梁，以确保它能够支撑新桥的重量。

2.As the train passed overhead, the vibrations caused the panting girder to resonate with a low hum.

当火车从上方经过时，振动导致呼吸梁发出低沉的嗡嗡声。

3.The architect designed a unique structure featuring a panting girder that added both strength and aesthetic appeal.

建筑师设计了一种独特的结构，采用了既增强强度又美观的呼吸梁。

4.During the storm, the panting girder swayed dangerously, prompting engineers to assess its stability.

在暴风雨中，呼吸梁危险地摇晃，促使工程师评估其稳定性。

5.Engineers used advanced technology to monitor the panting girder for any signs of fatigue or failure.

工程师们使用先进技术监测呼吸梁是否有疲劳或故障的迹象。

作文

The construction of a bridge is a marvel of engineering, where every component plays a crucial role in ensuring safety and stability. Among these components, the panting girder (喘动的梁) stands out as a vital element that supports the entire structure. A girder is typically a large beam that supports smaller beams or loads, and when we refer to it as 'panting', we are describing a specific phenomenon that occurs under certain conditions. The term 'panting' refers to the oscillation or vibration that can occur in girders due to dynamic loads, such as wind or traffic. This phenomenon can be particularly pronounced in long-span bridges, where the effects of wind can cause the girders to sway or vibrate. Engineers must carefully consider this factor during the design phase to ensure that the panting girder (喘动的梁) can withstand these forces without compromising the integrity of the bridge.When designing a bridge, engineers use advanced simulations and calculations to predict how the panting girder (喘动的梁) will behave under various conditions. They take into account the materials used, the weight of the loads it will carry, and environmental factors like wind speed and direction. By analyzing these elements, they can create a girder that not only supports the structure but also minimizes the effects of panting.In practical applications, the panting girder (喘动的梁) can be reinforced with additional materials or designed with specific shapes to reduce vibrations. For instance, using a wider girder or adding cross-bracing can help stabilize the structure. Additionally, damping systems can be incorporated to absorb some of the energy from the oscillations, further enhancing the safety and longevity of the bridge.The importance of understanding the panting girder (喘动的梁) cannot be overstated. Bridges are critical infrastructure that connects communities and facilitates transportation. Any failure in a bridge's structure could lead to catastrophic consequences, making it essential for engineers to address potential issues related to panting. Through rigorous testing and innovative design solutions, engineers strive to create bridges that are not only functional but also resilient against the forces of nature.In conclusion, the concept of the panting girder (喘动的梁) illustrates the complexities involved in bridge design and construction. It highlights the need for careful planning and consideration of dynamic loads to ensure the safety and reliability of these structures. As technology advances, engineers continue to develop new methods to mitigate the effects of panting, ultimately leading to safer and more durable bridges that can withstand the test of time and nature.