arch falsework

简明释义

楔形砖

英英释义

例句

1.The construction team set up the arch falsework to support the bridge during its initial phase.

施工队搭建了拱形支架以在桥梁的初始阶段支撑它。

2.After the concrete cured, the arch falsework was removed to reveal the elegant arch structure.

混凝土固化后，拱形支架被拆除，显现出优雅的拱形结构。

3.Using arch falsework allows for a more efficient construction process when building large arches.

使用拱形支架可以在建造大型拱形结构时提高施工效率。

4.The engineers designed the arch falsework to ensure safety during the arch installation.

工程师设计了拱形支架以确保在安装拱形结构时的安全性。

5.Properly constructing arch falsework is crucial for the stability of the arch during construction.

正确构建拱形支架对于拱形结构在施工期间的稳定性至关重要。

作文

The construction of bridges and large structures often involves complex engineering techniques, one of which is the use of arch falsework. This term refers to the temporary support system used during the construction of arch structures. The purpose of arch falsework is to hold the arch in place until it can support itself, allowing engineers to create stunning designs that would otherwise be impossible. In many construction projects, especially in civil engineering, the integrity and stability of the structure are paramount. When building an arch, the shape itself is crucial for distributing weight evenly. However, during the initial stages of construction, the arch is not yet capable of bearing its own weight. This is where arch falsework comes into play. It acts as a scaffold that supports the arch until the final materials, such as concrete or stone, have cured and gained sufficient strength. The design of arch falsework is critical. Engineers must carefully calculate the load-bearing requirements and ensure that the temporary structure can withstand various forces, including wind and the weight of the materials being placed on it. The falsework must be robust enough to support the arch but also flexible enough to allow for adjustments as the construction progresses. One of the key advantages of using arch falsework is that it allows for greater creativity in architectural design. With the right support system in place, architects can explore bold and innovative shapes that enhance the aesthetic appeal of a structure. For example, famous bridges like the Sydney Harbour Bridge and the Ponte Vecchio in Florence relied on effective falsework to achieve their iconic arches. However, the use of arch falsework is not without challenges. Construction teams must be vigilant about safety protocols, as working with large temporary structures can pose risks. Additionally, the installation and dismantling of falsework require careful planning to avoid delays in the project timeline. Moreover, environmental factors can impact the effectiveness of arch falsework. Weather conditions, such as heavy rain or strong winds, can compromise the stability of the temporary supports. Therefore, construction managers must monitor these conditions closely and be ready to adapt their plans accordingly. In conclusion, arch falsework is an essential component of modern construction that enables engineers and architects to create magnificent arch structures. By providing the necessary support during the critical phases of construction, it allows for the realization of ambitious designs while ensuring safety and stability. As technology advances, the methods and materials used in arch falsework are likely to evolve, leading to even more innovative construction techniques in the future. Understanding this concept is vital for anyone involved in civil engineering, architecture, or construction management, as it represents a bridge between creativity and structural integrity.

在桥梁和大型结构的建设中，常常涉及复杂的工程技术，其中之一就是使用拱形支架。这个术语指的是在拱形结构建设过程中使用的临时支撑系统。拱形支架的目的是在拱形结构能够自我支撑之前将其固定到位，从而让工程师能够创造出否则不可能实现的惊人设计。在许多建筑项目中，尤其是在土木工程中，结构的完整性和稳定性至关重要。建造拱形结构时，形状本身对于均匀分配重量是至关重要的。然而，在施工的初始阶段，拱形结构尚无法承受自身的重量。这就是拱形支架发挥作用的地方。它作为脚手架，支撑着拱形结构，直到最终材料（如混凝土或石材）固化并获得足够的强度。拱形支架的设计至关重要。工程师必须仔细计算承载要求，并确保临时结构能够承受各种力量，包括风力和正在放置材料的重量。支架必须足够坚固以支撑拱形结构，同时又要足够灵活，以便在施工过程中进行调整。使用拱形支架的一个主要优势是，它允许建筑设计的更大创造性。在合适的支撑系统下，建筑师可以探索大胆而创新的形状，从而增强结构的美学吸引力。例如，悉尼海港大桥和佛罗伦萨的老桥等著名桥梁依赖于有效的支架来实现其标志性的拱形结构。然而，使用拱形支架并非没有挑战。施工团队必须严格遵守安全协议，因为与大型临时结构的工作可能会带来风险。此外，支架的安装和拆除需要仔细规划，以避免项目时间表的延误。此外，环境因素也会影响拱形支架的有效性。天气条件，如强降雨或强风，可能会影响临时支撑的稳定性。因此，施工经理必须密切监测这些条件，并准备好根据需要调整计划。总之，拱形支架是现代建筑的重要组成部分，使工程师和建筑师能够创造出宏伟的拱形结构。通过在施工的关键阶段提供必要的支持，它使雄心勃勃的设计得以实现，同时确保安全和稳定。随着技术的进步，拱形支架所使用的方法和材料可能会不断演变，从而在未来引领更具创新性的建筑技术。理解这一概念对任何参与土木工程、建筑或施工管理的人来说都是至关重要的，因为它代表了创造力与结构完整性之间的桥梁。