driving surface

简明释义

推进面

英英释义

例句

1.The car's tires performed well on the driving surface 行驶表面 of the newly paved road.

汽车的轮胎在新铺设的道路的driving surface 行驶表面上表现良好。

2.Make sure to check the driving surface 行驶表面 for any ice before you leave.

出发前确保检查一下driving surface 行驶表面是否有冰。

3.The construction crew is working to improve the driving surface 行驶表面 of the highway.

施工队正在努力改善高速公路的driving surface 行驶表面。

4.The driving surface 行驶表面 of the gravel road can be uneven and challenging.

碎石路的driving surface 行驶表面可能不平坦，驾驶起来具有挑战性。

5.In rainy weather, the driving surface 行驶表面 becomes slippery, so drive cautiously.

在雨天，driving surface 行驶表面会变得滑，所以要小心驾驶。

作文

The term driving surface refers to the part of a roadway or path that is specifically designed for vehicles to travel on. This surface plays a critical role in ensuring safe and efficient transportation. The quality and condition of the driving surface can significantly affect vehicle performance, driver safety, and overall traffic flow. In urban areas, the driving surface is often made of asphalt or concrete, materials chosen for their durability and ability to withstand heavy loads. In contrast, rural roads may have unpaved driving surfaces, which can pose challenges such as dust, mud, or uneven terrain.When discussing the driving surface, it is essential to consider factors like texture, traction, and maintenance. A well-maintained driving surface provides adequate grip for tires, reducing the risk of accidents during wet or slippery conditions. On the other hand, a damaged or poorly maintained driving surface can lead to dangerous situations, such as skidding or loss of control. For instance, potholes and cracks can develop over time due to weather conditions and constant traffic, necessitating regular inspections and repairs to maintain safety standards.Furthermore, the design of the driving surface can impact traffic behavior. Smooth surfaces generally encourage higher speeds, while rough or textured surfaces may slow down vehicles. Urban planners and engineers must carefully consider these aspects when designing new roads or upgrading existing ones. They often conduct studies to analyze how different driving surfaces affect driver behavior and accident rates, aiming to create safer environments for all road users.In addition to safety, the environmental impact of driving surfaces cannot be overlooked. Traditional asphalt and concrete surfaces contribute to heat retention and urban heat islands, leading to increased temperatures in cities. To combat this, some municipalities are exploring alternatives like permeable pavements, which allow water to pass through, reducing runoff and promoting groundwater recharge. These innovative driving surfaces not only enhance sustainability but also improve the overall aesthetic of urban areas.Moreover, the choice of driving surface can influence vehicle maintenance costs. For example, vehicles traveling on smooth, well-kept roads typically incur lower wear and tear compared to those navigating rough or damaged surfaces. This factor is particularly important for commercial drivers who rely on their vehicles for business operations. Investing in high-quality driving surfaces can lead to long-term savings by minimizing vehicle repair and maintenance expenses.In conclusion, the driving surface is a fundamental element of our transportation infrastructure, affecting everything from safety and vehicle performance to environmental sustainability and economic efficiency. As we continue to innovate and improve our roadways, understanding the significance of the driving surface will remain crucial for creating safer, more efficient, and environmentally friendly transportation systems. Whether through advanced materials, better maintenance practices, or innovative designs, the future of driving surfaces holds great potential for enhancing our daily commutes and overall quality of life.

“驾驶表面”一词指的是专门为车辆行驶而设计的道路或路径部分。这个表面在确保安全和高效运输方面起着至关重要的作用。“驾驶表面”的质量和状况会显著影响车辆性能、驾驶员安全和整体交通流量。在城市地区，“驾驶表面”通常由沥青或混凝土制成，这些材料因其耐久性和承受重负荷的能力而被选用。相比之下，乡村道路可能有未铺砌的“驾驶表面”，这可能会带来如尘土、泥浆或不平坦地形等挑战。在讨论“驾驶表面”时，考虑纹理、牵引力和维护等因素是至关重要的。维护良好的“驾驶表面”能够为轮胎提供足够的抓地力，减少在湿滑条件下发生事故的风险。另一方面，损坏或维护不善的“驾驶表面”可能导致危险情况，例如打滑或失控。例如，由于天气条件和不断的交通，坑洼和裂缝可能会随着时间的发展而形成，因此需要定期检查和修复以保持安全标准。此外，“驾驶表面”的设计也会影响交通行为。光滑的表面通常鼓励更高的速度，而粗糙或有纹理的表面可能会减缓车辆速度。城市规划者和工程师在设计新道路或升级现有道路时必须仔细考虑这些方面。他们通常进行研究，以分析不同“驾驶表面”如何影响驾驶行为和事故率，旨在为所有道路使用者创造更安全的环境。除了安全性之外，“驾驶表面”的环境影响也不可忽视。传统的沥青和混凝土表面会导致热量滞留和城市热岛效应，从而导致城市温度升高。为了解决这个问题，一些市政当局正在探索可渗透的路面等替代方案，这种路面允许水通过，减少径流并促进地下水补给。这些创新的“驾驶表面”不仅增强了可持续性，还改善了城市地区的整体美观。此外，“驾驶表面”的选择还会影响车辆维护成本。例如，在光滑、保养良好的道路上行驶的车辆通常比在粗糙或损坏的表面上行驶的车辆磨损更小。这一点对于依赖车辆进行商业运营的商用司机尤为重要。投资于高质量的“驾驶表面”可以通过减少车辆维修和保养费用实现长期节省。总之，“驾驶表面”是我们交通基础设施的基本组成部分，影响着从安全性和车辆性能到环境可持续性和经济效率的方方面面。随着我们继续创新和改善道路，理解“驾驶表面”的重要性将始终是创造更安全、更高效和更环保的运输系统的关键。无论是通过先进的材料、更好的维护实践还是创新的设计，“驾驶表面”的未来都在为提升我们的日常通勤和整体生活质量而展现出巨大的潜力。