erection on trestle

简明释义

在栈架安装

英英释义

例句

1.Workers used cranes to assist with the erection on trestle of the large steel beams.

工人们使用起重机协助进行大型钢梁的架设在支架上。

2.Safety protocols were strictly followed during the erection on trestle to prevent accidents.

在进行架设在支架上时，严格遵循安全规程以防止事故。

3.The project manager reported that the erection on trestle was a crucial step in building the elevated railway.

项目经理报告说，架设在支架上是建设高架铁路的重要步骤。

4.The engineer inspected the stability of the erection on trestle before proceeding with the next phase of construction.

工程师在进行下一阶段施工前检查了架设在支架上的稳定性。

5.The construction team completed the erection on trestle for the new bridge ahead of schedule.

施工队提前完成了新桥的架设在支架上。

作文

The construction of infrastructure is a vital aspect of modern society, and one of the most interesting methods employed in this field is the erection on trestle. This technique involves building structures on a framework of supports, which are typically elevated above the ground. The use of trestles allows for greater flexibility and efficiency in construction, especially in areas where the terrain may be uneven or difficult to navigate. erection on trestle (在支架上搭建) provides a solution that not only addresses these challenges but also enhances the overall stability of the structure.Historically, the use of trestles dates back to ancient times, where they were primarily used in the construction of bridges and elevated railways. The design of a trestle is relatively simple yet effective; it consists of a series of beams and supports that create a sturdy platform for further construction. This method has evolved significantly over the years, with advancements in materials and engineering techniques leading to more robust and durable trestle designs.One of the key advantages of erection on trestle is its ability to minimize disruption to the surrounding environment. By elevating the structure, builders can avoid extensive excavation and grading, which can be detrimental to local ecosystems. Additionally, this method allows for better water drainage, reducing the risk of flooding and erosion in the area. In urban settings, where space is often at a premium, erection on trestle can provide an innovative solution for creating additional space without compromising the integrity of the landscape.Moreover, the safety aspect of erection on trestle cannot be overlooked. Elevated structures are less susceptible to damage from floods or landslides, making them a safer option in regions prone to such natural disasters. Engineers can design trestles to withstand significant loads, ensuring that the structures built upon them are secure and stable. This level of safety is crucial, particularly in densely populated areas where the consequences of structural failure can be catastrophic.In recent years, the use of erection on trestle has expanded beyond traditional applications. Modern architects and engineers are exploring innovative ways to incorporate trestle designs into various types of buildings, including residential and commercial structures. This trend not only showcases the versatility of trestles but also highlights the ongoing need for sustainable construction practices. As cities continue to grow and evolve, finding ways to build upward rather than outward becomes increasingly important, and trestles offer a practical solution to this challenge.In conclusion, the concept of erection on trestle plays a significant role in contemporary construction practices. Its historical roots, combined with its modern applications, demonstrate the enduring relevance of this technique in addressing the challenges of building in diverse environments. As we move towards a future that prioritizes sustainability and safety, the continued exploration and implementation of erection on trestle will undoubtedly contribute to the development of resilient and innovative infrastructure.

基础设施的建设是现代社会的重要方面，而在这个领域中，采用的一种最有趣的方法就是在支架上搭建。这种技术涉及在支撑框架上建造结构，这些支撑通常高于地面。使用支架可以在建筑中提供更大的灵活性和效率，尤其是在地形不平坦或难以通行的地区。在支架上搭建（erection on trestle）提供了一种解决方案，不仅解决了这些挑战，还增强了结构的整体稳定性。从历史上看，支架的使用可以追溯到古代，当时它们主要用于桥梁和高架铁路的建设。支架的设计相对简单但有效；它由一系列梁和支撑组成，形成一个坚固的平台以便进一步施工。这种方法随着多年来材料和工程技术的进步而显著演变，导致了更强大和耐用的支架设计。在支架上搭建的一个关键优势是能够最小化对周围环境的干扰。通过提高结构的高度，建筑商可以避免广泛的挖掘和整平，这可能对当地生态系统造成伤害。此外，这种方法还允许更好的水排放，减少洪水和侵蚀的风险。在城市环境中，空间往往稀缺，在支架上搭建可以为创造额外空间提供一种创新解决方案，而不会妨碍景观的完整性。此外，在支架上搭建的安全方面也不容忽视。高架结构对洪水或滑坡的损害较小，使其在易发生自然灾害的地区成为更安全的选择。工程师可以设计支架以承受重大负荷，确保在其上建造的结构安全稳固。这种安全级别至关重要，特别是在密集的人口区域，结构失效的后果可能是灾难性的。近年来，在支架上搭建的使用超越了传统应用。现代建筑师和工程师正在探索将支架设计融入各种类型建筑的新方法，包括住宅和商业结构。这一趋势不仅展示了支架的多功能性，还突显了对可持续建筑实践的持续需求。随着城市的不断发展和演变，寻找向上而非向外扩展的建设方式变得越来越重要，而支架为这一挑战提供了切实可行的解决方案。总之，在支架上搭建的概念在当代建筑实践中发挥着重要作用。它的历史根源，加上现代应用，证明了这一技术在应对多样环境建筑挑战中的持久相关性。随着我们朝着一个优先考虑可持续性和安全性的未来迈进，继续探索和实施在支架上搭建无疑将有助于开发出韧性和创新的基础设施。