track spacing

简明释义

搜寻线间距

英英释义

例句

1.The engineers decided to adjust the track spacing for better train stability.

工程师们决定调整轨道间距以提高列车的稳定性。

2.In the design phase, we need to consider the track spacing to ensure compatibility with existing systems.

在设计阶段，我们需要考虑轨道间距以确保与现有系统的兼容性。

3.The track spacing in this model is optimized for high-speed trains.

该模型中的轨道间距经过优化，适用于高速列车。

4.Adjusting the track spacing can help reduce noise during train operations.

调整轨道间距可以帮助减少列车运行时的噪音。

5.The maintenance team checked the track spacing to ensure safety standards were met.

维护团队检查了轨道间距以确保符合安全标准。

作文

In the world of railways and transportation, the term track spacing refers to the distance between the two rails that make up a railway track. This measurement is crucial because it directly affects the stability and safety of trains as they travel along the tracks. A properly measured track spacing ensures that trains can move efficiently without derailing or experiencing undue wear and tear on their wheels. The standard gauge for many railways around the world is 1,435 millimeters, but there are variations depending on the region and the specific requirements of the railway system. For instance, narrow-gauge railways, often used in mountainous areas, may have a track spacing of just 1,000 millimeters or less. On the other hand, some high-speed rail systems might employ wider gauges to accommodate faster speeds and heavier trains. Understanding track spacing is not only important for engineers and railway planners but also for the general public who rely on these systems for transportation. When a train derails, one of the first things investigated is whether the track spacing was appropriate for the type of train operating on those tracks. If the spacing is too wide or too narrow, it can lead to catastrophic failures. Moreover, track spacing plays a significant role in the development of new railway technologies. As train manufacturers innovate and create faster, more efficient trains, they must also consider how these advancements will interact with existing railway infrastructure. For example, if a new train design requires a different track spacing, then significant modifications may need to be made to current tracks, which can be costly and time-consuming. In addition to safety and efficiency, track spacing also impacts the overall design of railway stations and platforms. Stations must be built to accommodate the specific track spacing of the trains they serve. If a station is designed for a standard gauge train, but a narrow-gauge train is introduced, it could lead to complications in boarding and alighting passengers. Furthermore, environmental factors can influence track spacing. In regions prone to earthquakes or flooding, engineers may need to adjust the spacing to ensure that the tracks remain stable during such events. This adaptability is crucial for maintaining the integrity of the railway system and ensuring that it can withstand natural disasters.In conclusion, track spacing is a fundamental aspect of railway engineering that has far-reaching implications for safety, efficiency, and design. As technology continues to evolve, understanding and optimizing track spacing will remain a priority for railway systems worldwide. By ensuring that the distance between rails is appropriate, we can help create a safer and more reliable transportation network for everyone. Ultimately, whether one is a railway engineer, a commuter, or simply an enthusiast, recognizing the importance of track spacing can lead to a greater appreciation of the complexities involved in railway operations.

在铁路和交通的世界中，术语轨道间距指的是构成铁路轨道的两条轨道之间的距离。这一测量至关重要，因为它直接影响着火车在轨道上行驶时的稳定性和安全性。适当的轨道间距确保火车能够高效运行，而不发生出轨或对其车轮造成过度磨损。许多国家的铁路标准轨距为1435毫米，但根据地区和铁路系统的具体要求，存在变化。例如，窄轨铁路通常用于山区，其轨道间距可能仅为1000毫米或更小。另一方面，一些高速铁路系统可能采用更宽的轨距，以适应更快的速度和更重的列车。理解轨道间距不仅对工程师和铁路规划者重要，也对依赖这些系统进行交通的公众至关重要。当火车出轨时，首先调查的事项之一就是该轨道间距是否适合正在运行的列车类型。如果间距过宽或过窄，可能导致灾难性的故障。此外，轨道间距在新铁路技术的发展中也起着重要作用。随着列车制造商的创新，创造更快、更高效的列车，他们还必须考虑这些进步将如何与现有铁路基础设施互动。例如，如果一种新列车设计需要不同的轨道间距，那么可能需要对现有轨道进行重大修改，这可能代价高昂且耗时。除了安全和效率，轨道间距还影响铁路车站和站台的整体设计。车站必须建造以适应它们服务的列车特定的轨道间距。如果一个车站是为标准轨距列车设计的，但引入了窄轨列车，可能会导致乘客上下车时的复杂情况。此外，环境因素也会影响轨道间距。在易发生地震或洪水的地区，工程师可能需要调整轨道间距，以确保轨道在此类事件中保持稳定。这种适应性对于维护铁路系统的完整性至关重要，确保其能够抵御自然灾害。总之，轨道间距是铁路工程的一个基本方面，对安全、效率和设计有深远的影响。随着技术的不断发展，理解和优化轨道间距将继续成为全球铁路系统的优先事项。通过确保轨道之间的距离适当，我们可以帮助为每个人创造一个更安全、更可靠的交通网络。最终，无论是铁路工程师、通勤者还是单纯的爱好者，认识到轨道间距的重要性都能使人们更好地欣赏铁路运营中涉及的复杂性。