camber line

简明释义

弧线

英英释义

例句

1.The architect specified the camber line in the blueprints for the bridge.

建筑师在桥梁的蓝图中指定了弯曲线。

2.A well-defined camber line can enhance the performance of a racing car.

清晰定义的弯曲线可以提升赛车的性能。

3.The camber line is crucial for determining the curvature of the highway.

对于确定高速公路的曲率，弯曲线是至关重要的。

4.During the design phase, we adjusted the camber line for better vehicle stability.

在设计阶段，我们调整了弯曲线以提高车辆的稳定性。

5.The engineer marked the camber line to ensure proper drainage on the road.

工程师标记了弯曲线以确保道路的适当排水。

作文

The concept of the camber line is crucial in various fields, particularly in engineering and design. The camber line refers to the imaginary line that runs along the center of a curved surface, such as an aircraft wing or a road surface. This line helps in determining how the shape of the surface will affect its performance. In aerodynamics, for instance, the camber line plays a significant role in the lift and drag characteristics of an airfoil. When designing an aircraft, engineers must carefully consider the curvature of the wing and its camber line to ensure optimal flight performance.In civil engineering, the camber line is equally important when designing roads and bridges. A properly designed camber line allows for better water drainage, which can prevent hydroplaning and improve safety for vehicles. Engineers analyze the camber line to create a smooth transition between different elevations, ensuring that the road is both functional and safe for drivers.Moreover, the camber line has implications in the automotive industry as well. When designing tires, manufacturers consider the camber line to enhance vehicle stability and handling. The angle at which the tires contact the road can significantly affect how well a car performs during turns and at high speeds. By optimizing the camber line, engineers can improve traction and reduce tire wear, leading to a more efficient and safer driving experience.In addition to its practical applications, the camber line serves as a fundamental concept in understanding the principles of geometry and physics. Students studying these subjects often encounter the camber line when learning about curves and surfaces. Understanding the camber line can help students grasp more complex ideas related to forces, motion, and stability.In conclusion, the camber line is a vital concept across multiple disciplines, from aerospace engineering to civil engineering and automotive design. Its significance lies not only in its practical applications but also in its ability to facilitate a deeper understanding of geometric and physical principles. Whether one is designing an aircraft wing, a roadway, or a tire, the camber line remains an essential consideration that can greatly influence performance and safety. As technology continues to advance, the importance of the camber line will only grow, making it a key element for future innovations in engineering and design.

“camber line”的概念在多个领域中至关重要，尤其是在工程和设计领域。“camber line”指的是沿着曲面中心线的虚拟线，例如飞机机翼或道路表面。这条线有助于确定表面的形状如何影响其性能。例如，在空气动力学中，“camber line”在气动翼的升力和阻力特性中发挥着重要作用。在设计飞机时，工程师必须仔细考虑机翼的曲率及其“camber line”，以确保最佳的飞行性能。在土木工程中，当设计道路和桥梁时，“camber line”同样重要。合理设计的“camber line”可以更好地排水，从而防止水滑和提高车辆的安全性。工程师分析“camber line”以创建不同高度之间的平滑过渡，确保道路既实用又安全。此外，“camber line”在汽车工业中也有影响。在设计轮胎时，制造商考虑“camber line”以增强车辆的稳定性和操控性。轮胎与路面的接触角度会显著影响汽车在转弯和高速行驶时的表现。通过优化“camber line”，工程师可以改善抓地力并减少轮胎磨损，从而实现更高效和更安全的驾驶体验。除了实际应用外，“camber line”还是理解几何和物理原理的基本概念。学习这些学科的学生通常会在学习曲线和曲面时遇到“camber line”。理解“camber line”可以帮助学生掌握与力、运动和稳定性相关的更复杂的概念。总之，“camber line”是多个学科中的一个重要概念，从航空航天工程到土木工程再到汽车设计。它的重要性不仅体现在其实际应用中，还体现在其促进对几何和物理原理的更深刻理解上。无论是在设计飞机机翼、道路还是轮胎时，“camber line”始终是一个至关重要的考虑因素，可以极大地影响性能和安全性。随着技术的不断进步，“camber line”的重要性只会增加，使其成为未来工程和设计创新的关键元素。