camber

简明释义

英[ˈkæmbə(r)]美[ˈkæmbər]

n. 拱曲度（路面中间微拱的曲面）；拱形；汽车前轮外倾；（翼面的）曲面，弧

v. 成弧形；使拱起

n. （Camber）（美、英、克）坎贝尔（人名）

复 数 c a m b e r s

第 三 人 称 单 数 c a m b e r s

现 在 分 词 c a m b e r i n g

过 去 式 c a m b e r e d

过 去 分 词 c a m b e r e d

英英释义

单词用法

同义词

反义词

例句

1.Camber angle fixing, preventing automobile' s suspending and data's pulsating.

外倾角固定功能，防止车身悬起数据跳动；

2.For straight - winged tailless airplanes, only the negative camber satisfies the conditions for flight.

对直机翼无尾飞机，只有负弯度才满足飞行条件。

3.Adjust camber link so that it is more level, in the front.

调节前轮内倾角调节杆使得它更接近水平。

4.The superstructure has a depth of 3 ft. 6 in. with a marked camber of 19 ft. 8 in.

上部结构的建筑高度为3英尺6英寸，有19英尺8英寸显著的上拱度。

5.The choice of optimum section does not consider the number of shear connectors required or if beam camber is required.

截面的选作不是考虑到抗剪的连接件（如果梁的挠度需要考虑的话）。

6.To ensure the stableness and security of the train, the high speed railway's bridge camber must be extremely limited.

为保证列车行驶的平稳和安全性，高速铁路桥梁的上拱度有十分严格的限值。

7.But during the practical application, the surface camber of the figure is different.

但是在实际应用中，图形的表面曲率是不一样的。

8.I can see a point, a circle and a camber.

有一个点，有一个圆，还有一个曲面。

9.The road has a slight camber to help with drainage.

这条路有轻微的弯曲以帮助排水。

10.Adjusting the camber of your car's wheels can improve handling.

调整汽车轮子的倾斜角可以改善操控性。

11.The architect designed the roof with a camber to prevent water accumulation.

建筑师设计了一个带有弯曲的屋顶，以防止积水。

12.A positive camber can enhance the stability of a bicycle.

正向的倾斜角可以增强自行车的稳定性。

13.The runway has a camber to ensure that rainwater flows off the sides.

跑道有一个弯曲，以确保雨水流到两侧。

作文

The concept of camber is often discussed in the context of automotive design and engineering. In simple terms, camber refers to the angle of the wheels in relation to the vertical axis of the vehicle. When the top of the wheel is tilted inward towards the car, it is said to have a positive camber. Conversely, if the top of the wheel tilts outward, it has a negative camber. This adjustment can significantly affect the performance and handling of a vehicle. When designing a car, engineers must consider how camber will influence tire wear, traction, and stability. For instance, a vehicle with too much positive camber may experience uneven tire wear, leading to a shorter lifespan for the tires. On the other hand, negative camber can enhance cornering performance by increasing the contact patch of the tire during turns, but it can also lead to rapid tire degradation if not managed correctly. In motorsports, the adjustment of camber is crucial for achieving optimal performance on the track. Racers often fine-tune their vehicles’ camber settings to maximize grip and minimize tire wear during races. The right camber can provide drivers with better control and responsiveness, allowing them to navigate corners more effectively and maintain higher speeds. However, camber is not just important for racing cars; it also plays a role in everyday vehicles. For regular drivers, understanding camber can help in maintaining their cars. If a driver notices that their tires are wearing unevenly or that the vehicle pulls to one side, it may be time to check the camber settings. Proper alignment, including camber adjustments, can lead to a smoother ride, improved fuel efficiency, and prolonged tire life. Furthermore, the effects of camber extend beyond just tire performance. The overall suspension system of a vehicle can be influenced by camber settings. A well-adjusted camber can contribute to better weight distribution and balance, which is essential for safe driving. Drivers who neglect camber adjustments may find themselves facing handling issues, particularly in adverse weather conditions. In conclusion, camber is a vital aspect of vehicle dynamics that should not be overlooked. Whether in high-performance motorsports or everyday driving, the angle of the wheels can have significant implications for safety, performance, and tire longevity. Understanding camber allows both engineers and drivers to optimize their vehicles for the best possible experience on the road. As technology continues to evolve, the importance of camber in automotive design remains a key factor in enhancing vehicle performance and ensuring driver safety.

在汽车设计和工程的背景下，‘camber’这个概念经常被讨论。简单来说，‘camber’指的是车轮相对于车辆垂直轴的角度。当车轮的顶部向车内倾斜时，称为正‘camber’；反之，如果车轮的顶部向外倾斜，则称为负‘camber’。这种调整会显著影响车辆的性能和操控。 在设计汽车时，工程师必须考虑‘camber’对轮胎磨损、牵引力和稳定性的影响。例如，具有过多正‘camber’的车辆可能会经历不均匀的轮胎磨损，导致轮胎的使用寿命缩短。另一方面，负‘camber’可以通过增加转弯时轮胎的接触面积来增强转弯性能，但如果管理不当，也可能导致轮胎快速退化。 在赛车运动中，调整‘camber’对在赛道上实现最佳性能至关重要。赛车手通常会微调他们车辆的‘camber’设置，以最大限度地提高抓地力并减少轮胎磨损。正确的‘camber’可以为驾驶员提供更好的控制和响应能力，使他们能够更有效地驾驭弯道并保持更高的速度。 然而，‘camber’不仅对赛车重要，它在日常车辆中也起着作用。对于普通驾驶者来说，了解‘camber’有助于维护他们的汽车。如果驾驶者注意到轮胎磨损不均或车辆向一侧偏移，可能是时候检查一下‘camber’设置了。适当的对齐，包括‘camber’调整，可以带来更平稳的驾驶体验，提高燃油效率，并延长轮胎的使用寿命。 此外，‘camber’的影响不仅限于轮胎性能。车辆的整体悬挂系统也可能受到‘camber’设置的影响。良好调整的‘camber’可以有助于更好的重量分配和平衡，这对安全驾驶至关重要。忽视‘camber’调整的驾驶者可能会面临操控问题，特别是在恶劣天气条件下。 总之，‘camber’是车辆动态中一个重要的方面，不容忽视。无论是在高性能赛车还是日常驾驶中，车轮的角度都对安全、性能和轮胎寿命产生重大影响。理解‘camber’使工程师和驾驶者能够优化他们的车辆，以获得最佳的道路体验。随着技术的不断发展，‘camber’在汽车设计中的重要性仍然是提升车辆性能和确保驾驶安全的关键因素。