tunnel stern

简明释义

轴隧式船尾

英英释义

例句

1.The tunnel stern was designed to withstand heavy traffic.

隧道后部被设计成能够承受重型交通。

2.They installed new lighting in the tunnel stern for better visibility.

他们在隧道后部安装了新的照明设备，以提高能见度。

3.During the inspection, we found that the tunnel stern was in need of repairs.

在检查中，我们发现隧道后部需要修理。

4.The emergency exit is located at the end of the tunnel stern.

紧急出口位于隧道后部的尽头。

5.The workers had to navigate through the tunnel stern to reach the other side of the mountain.

工人们必须穿过隧道后部才能到达山的另一边。

作文

In the world of engineering and construction, the term tunnel stern refers to a specific design feature often utilized in the construction of tunnels and underground passages. This concept is crucial for ensuring both the structural integrity and the safety of these subterranean environments. Understanding the implications of tunnel stern can enhance our appreciation of modern engineering feats and their impact on urban development.The idea behind tunnel stern is rooted in the need for stability and support in tunnel systems, particularly those that are subjected to significant external pressures, such as soil weight and groundwater. Engineers employ various techniques to design tunnel structures that can withstand these forces while also facilitating safe passage for vehicles and pedestrians.One common application of tunnel stern is seen in the design of subway systems, where tunnels must be built deep underground to avoid disrupting surface activities. The tunnel stern approach allows for the reinforcement of tunnel walls and ceilings, preventing collapses that could endanger commuters and workers alike. In this context, it becomes evident that the term is not just a technical jargon but a vital aspect of ensuring public safety and efficient transportation.Moreover, the implementation of tunnel stern principles can significantly influence the cost and duration of construction projects. By using advanced materials and innovative designs, engineers can create tunnels that require less maintenance over time, ultimately saving municipalities money and resources. The long-term benefits of applying tunnel stern designs are clear when considering the sustainability of urban infrastructure.In addition to its practical applications, the concept of tunnel stern invites us to reflect on the broader implications of engineering in society. As cities expand and populations grow, the demand for efficient transportation networks increases. Engineers must continually adapt and innovate to meet these challenges, ensuring that their designs are not only functional but also environmentally responsible.The integration of tunnel stern into urban planning highlights the importance of interdisciplinary collaboration among engineers, architects, and city planners. Successful projects require a comprehensive understanding of geology, hydrology, and materials science, demonstrating that the construction of tunnels is a complex endeavor that goes beyond mere excavation.Furthermore, as technology advances, the methods associated with tunnel stern are evolving. The use of computer simulations and modeling allows engineers to predict potential issues before they arise, leading to safer and more efficient designs. This technological integration represents a significant shift in how we approach tunnel construction, emphasizing the need for continuous learning and adaptation in engineering practices.In conclusion, the term tunnel stern encapsulates a critical aspect of tunnel engineering that ensures safety, efficiency, and sustainability in urban development. As we continue to build and expand our cities, understanding and applying the principles of tunnel stern will be essential for creating infrastructure that meets the demands of modern life while safeguarding our communities. The future of urban engineering relies on such concepts, reminding us that even the most hidden structures play a vital role in our everyday lives.

在工程和建筑的世界中，术语tunnel stern指的是在隧道和地下通道的建设中常用的一种特定设计特征。这个概念对于确保这些地下环境的结构完整性和安全性至关重要。理解tunnel stern的含义可以增强我们对现代工程壮举及其对城市发展的影响的欣赏。tunnel stern背后的理念根植于对隧道系统稳定性和支撑需求的认识，特别是那些受到显著外部压力的隧道，如土壤重量和地下水。工程师采用各种技术来设计能够承受这些力量的隧道结构，同时也便于车辆和行人的安全通行。tunnel stern的一个常见应用可以在地铁系统的设计中看到，隧道必须建造在地下深处，以避免干扰地表活动。tunnel stern的方法允许对隧道的墙壁和天花板进行加固，防止可能危害通勤者和工人安全的坍塌。在这种情况下，很明显，这个术语不仅仅是技术行话，而是确保公共安全和高效运输的重要方面。此外，tunnel stern原则的实施可以显著影响建设项目的成本和持续时间。通过使用先进的材料和创新的设计，工程师可以创建需要较少维护的隧道，从而最终为市政当局节省资金和资源。考虑到城市基础设施的可持续性，采用tunnel stern设计的长期好处显而易见。除了其实际应用之外，tunnel stern的概念还邀请我们反思工程在社会中的更广泛影响。随着城市扩展和人口增长，对高效运输网络的需求增加。工程师必须不断适应和创新，以应对这些挑战，确保他们的设计不仅功能齐全，而且对环境负责。将tunnel stern整合到城市规划中突显了工程师、建筑师和城市规划者之间跨学科合作的重要性。成功的项目需要对地质学、水文学和材料科学有全面的理解，这表明隧道建设是一项复杂的事业，超越了简单的挖掘。此外，随着技术的发展，与tunnel stern相关的方法也在不断演变。计算机模拟和建模的使用使工程师能够在问题出现之前预测潜在问题，从而导致更安全、更高效的设计。这种技术整合代表了我们在隧道建设中方法的重大转变，强调了在工程实践中持续学习和适应的必要性。总之，术语tunnel stern概括了隧道工程的一个关键方面，确保城市发展的安全、高效和可持续性。随着我们继续建设和扩展城市，理解和应用tunnel stern的原则将对创建满足现代生活需求的基础设施至关重要，同时保护我们的社区。城市工程的未来依赖于这样的概念，让我们意识到即使是最隐蔽的结构在我们日常生活中也发挥着至关重要的作用。