tracked air-cushion

简明释义

有轨气垫运输工具

英英释义

例句

1.Engineers are developing a tracked air-cushion system for urban transportation.

工程师们正在开发一种用于城市交通的气垫轨道车系统。

2.The tracked air-cushion technology allows the vehicle to glide over water and land.

气垫轨道车技术使车辆能够在水面和陆地上滑行。

3.The military employs tracked air-cushion vehicles for amphibious operations.

军方使用气垫轨道车进行两栖作战。

4.During the test, the tracked air-cushion demonstrated excellent stability over rough terrain.

在测试中，气垫轨道车在崎岖地形上表现出色的稳定性。

5.The new delivery system utilizes a tracked air-cushion to ensure packages arrive safely and quickly.

新的配送系统利用气垫轨道车确保包裹安全快速地送达。

作文

In recent years, the development of transportation technology has taken significant strides, leading to more efficient and innovative modes of travel. One such advancement is the creation of vehicles that utilize a tracked air-cushion (轨道气垫) system. This technology combines the principles of hovercrafts and tracked vehicles, allowing for smooth movement over various terrains while minimizing friction. The tracked air-cushion (轨道气垫) design enables vehicles to glide above surfaces, supported by a cushion of air, which is particularly beneficial in environments where traditional wheels may struggle. The mechanism behind a tracked air-cushion (轨道气垫) vehicle involves a combination of air pressure and track guidance. Air is pumped underneath the vehicle, creating a cushion that lifts it off the ground. This not only reduces wear and tear on the vehicle but also allows for faster speeds compared to conventional vehicles. Furthermore, the tracks guide the vehicle's direction, ensuring stability and control during operation. This dual functionality makes the tracked air-cushion (轨道气垫) an exciting option for future transportation solutions.One of the most promising applications of tracked air-cushion (轨道气垫) technology is in public transport systems. Cities around the world are looking for ways to alleviate traffic congestion and reduce pollution. By implementing tracked air-cushion (轨道气垫) vehicles, cities could offer a cleaner, faster alternative to buses and cars. These vehicles can travel over water, ice, or uneven terrain, making them versatile options for urban environments. Additionally, their reduced noise levels contribute to a more pleasant commuting experience for passengers.Moreover, tracked air-cushion (轨道气垫) systems have potential benefits in emergency services. In disaster-stricken areas, traditional vehicles may be unable to navigate damaged roads or flooded regions. However, a tracked air-cushion (轨道气垫) vehicle could swiftly traverse these challenging landscapes, delivering medical supplies or rescuing individuals in need. This capability highlights the importance of developing such technologies to enhance our response to emergencies.Despite the numerous advantages, there are challenges to overcome before tracked air-cushion (轨道气垫) vehicles become mainstream. The initial cost of developing and implementing this technology can be high, and extensive testing is required to ensure safety and reliability. Additionally, infrastructure must be adapted to accommodate these new vehicles, which may require significant investment from governments and private sectors.In conclusion, the tracked air-cushion (轨道气垫) technology holds great promise for the future of transportation. Its ability to combine the benefits of air cushioning with track guidance can revolutionize how we think about travel. As we continue to innovate and improve upon these concepts, it is essential to consider the environmental impacts and the potential for enhancing public safety. With further research and development, tracked air-cushion (轨道气垫) vehicles could soon become a common sight on our roads, waterways, and beyond, paving the way for a more efficient and sustainable future.

近年来，交通技术的发展取得了显著的进步，导致了更高效和创新的旅行方式。其中一个这样的进步就是创造出利用tracked air-cushion（轨道气垫）系统的车辆。这项技术结合了气垫船和履带车辆的原理，使其能够在各种地形上平稳移动，同时减少摩擦。tracked air-cushion（轨道气垫）设计使车辆能够在表面上滑行，由气垫支撑，这在传统轮胎可能遇到困难的环境中尤为有利。tracked air-cushion（轨道气垫）车辆的机制涉及空气压力和轨道引导的结合。空气被泵入车辆下方，形成一个气垫，将其抬离地面。这不仅减少了车辆的磨损，还允许其以比传统车辆更快的速度行驶。此外，轨道引导车辆的方向，确保操作过程中的稳定性和控制。这种双重功能使得tracked air-cushion（轨道气垫）成为未来交通解决方案的令人兴奋的选择。tracked air-cushion（轨道气垫）技术最有前景的应用之一是在公共交通系统中。世界各地的城市都在寻找缓解交通拥堵和减少污染的方法。通过实施tracked air-cushion（轨道气垫）车辆，城市可以提供一种更清洁、更快速的替代公交车和汽车的选择。这些车辆可以在水面、冰面或不平坦的地形上行驶，使其成为城市环境中的多功能选项。此外，它们降低的噪音水平为乘客提供了更愉快的通勤体验。此外，tracked air-cushion（轨道气垫）系统在紧急服务中也具有潜在的好处。在灾区，传统车辆可能无法在受损的道路或洪水区域中行驶。然而，tracked air-cushion（轨道气垫）车辆可以迅速穿越这些具有挑战性的地形，运送医疗用品或营救需要帮助的人。这一能力突显了开发此类技术以增强我们应对紧急情况能力的重要性。尽管有许多优点，但在tracked air-cushion（轨道气垫）车辆成为主流之前，还有一些挑战需要克服。开发和实施这项技术的初始成本可能很高，并且需要进行广泛的测试以确保安全性和可靠性。此外，基础设施必须适应这些新车辆，这可能需要政府和私营部门的重大投资。总之，tracked air-cushion（轨道气垫）技术对未来交通具有巨大的潜力。其将气垫的优点与轨道引导相结合的能力可以彻底改变我们对旅行的思考。随着我们继续创新和改进这些概念，考虑环境影响和提高公共安全的潜力至关重要。随着进一步的研究和开发，tracked air-cushion（轨道气垫）车辆很快可能会成为我们道路、水域及其他地方的常见景象，为更高效和可持续的未来铺平道路。