slipform

简明释义

英[ˈslɪpˌfɔrm]美[ˈslɪpˌfɔrm]

v. 用滑动模块铺筑

英英释义

单词用法

同义词

反义词

例句

1.At the same time, its application in voiding the collapse and pockmarked face of slipform concrete pavements, the technology design of working mechanism in slipform pavers, the construction ope...

滑模摊铺机工作机构的工艺设计；滑模摊铺机的施工操作以及滑模摊铺混凝土路面混合料的配合比和施工工艺参数的控制上。

2.The slipform system is composed of rails, slipform, hydraulic climbing device, safety facilities and transport system.

滑模系统由轨道、滑模、液压爬升装置、安全保险设施和运输系统几大部分组成。

3.At the same time, its application in voiding the collapse and pockmarked face of slipform concrete pavements, the technology design of working mechanism in slipform pavers, the construction ope...

滑模摊铺机工作机构的工艺设计；滑模摊铺机的施工操作以及滑模摊铺混凝土路面混合料的配合比和施工工艺参数的控制上。

4.At the same time, its application in voiding the collapse and pockmarked face of slipform concrete pavements, the technology design of working mechanism in slipform pavers, the cons...

滑模摊铺机工作机构的工艺设计；滑模摊铺机的施工操作以及滑模摊铺混凝土路面混合料的配合比和施工工艺参数的控制上。

5.Taking an engineering as the example, this paper introduces Slipform construction method and the main points of its quality control.

文章以某工程为例，介绍了滑模的施工方法及质量控制要点。

6.The slipform method allows for faster construction of bridges and tunnels.

使用滑模方法可以更快地建造桥梁和隧道。

7.The construction team used slipform to create the walls of the high-rise building efficiently.

施工团队使用滑模高效地建造了高层建筑的墙壁。

8.We decided to use slipform technology to improve the speed of our project.

我们决定使用滑模技术来提高项目的速度。

9.The slipform process involves a moving form that shapes the concrete as it is poured.

在滑模过程中，移动的模具在浇筑混凝土时形成其形状。

10.With slipform, the concrete can be poured continuously, reducing labor costs.

通过滑模，混凝土可以连续浇筑，从而降低人工成本。

作文

The construction industry has evolved significantly over the years, introducing various innovative techniques to enhance efficiency and reduce costs. One such technique that stands out is the use of slipform, a method primarily employed in the construction of vertical structures like silos, bridges, and high-rise buildings. This technique allows for continuous pouring of concrete, enabling the creation of seamless structures without the need for joints or seams. The slipform process involves a movable formwork that ascends as the concrete is poured, making it possible to construct tall structures at a much faster pace compared to traditional methods.The advantages of using slipform are numerous. First and foremost, it significantly reduces construction time. Since the formwork moves continuously, there are fewer interruptions in the pouring process, which leads to quicker completion of projects. Additionally, the quality of the concrete structure is enhanced due to the absence of cold joints that can occur with traditional formwork methods. Cold joints are weak points in concrete structures where two different pours meet, and they can compromise the integrity of the building.Moreover, slipform allows for greater design flexibility. Architects and engineers can create complex shapes and designs that might be challenging to achieve with conventional methods. This adaptability makes slipform an appealing choice for modern architectural projects that demand creativity and innovation.However, the implementation of slipform is not without its challenges. It requires careful planning and coordination among various teams involved in the construction process. The equipment used for slipform must be precisely calibrated to ensure that the concrete is poured at the correct rate and that the formwork rises smoothly. Any errors in this process can lead to structural issues or delays in the project timeline.Additionally, the initial investment for slipform technology can be substantial. Construction companies must weigh the upfront costs against the long-term benefits of reduced labor and time savings. Despite these challenges, many companies have successfully adopted slipform techniques, reaping the rewards of increased efficiency and improved structural quality.In conclusion, the slipform technique represents a significant advancement in construction methodology. Its ability to streamline the construction process while enhancing the quality of concrete structures makes it an essential tool in the modern builder's arsenal. As the construction industry continues to evolve, the adoption of innovative techniques such as slipform will likely play a crucial role in shaping the future of building design and construction. With ongoing advancements in technology and materials, the potential applications for slipform are vast, promising exciting developments in the field of architecture and civil engineering.

建筑行业在过去几年中发生了显著变化，引入了各种创新技术，以提高效率并降低成本。其中一种突出的技术是使用滑模，这是一种主要用于建造垂直结构（如筒仓、桥梁和高层建筑）的方法。这种技术允许连续浇筑混凝土，从而能够创建无缝结构，无需接缝或缝隙。滑模过程涉及一个可移动的模板，在浇筑混凝土时上升，使得与传统方法相比，可以更快地建造高大结构。使用滑模的优点有很多。首先，它显著减少了施工时间。由于模板持续移动，浇筑过程中的中断较少，这导致项目的完成速度更快。此外，由于不存在冷接缝，混凝土结构的质量得到了提高。冷接缝是混凝土结构中的弱点，两个不同的浇筑部分相遇的地方，可能会影响建筑的完整性。此外，滑模还允许更大的设计灵活性。建筑师和工程师可以创建复杂的形状和设计，这在传统方法中可能难以实现。这种适应性使得滑模成为现代建筑项目的一个吸引人的选择，满足创造力和创新的需求。然而，实施滑模并非没有挑战。它需要对参与建设过程的各个团队进行仔细规划和协调。用于滑模的设备必须精确校准，以确保混凝土以正确的速率浇筑，并且模板平稳上升。此过程中的任何错误都可能导致结构问题或项目时间表的延误。此外，滑模技术的初始投资可能相当可观。建筑公司必须权衡前期成本与长期节省劳动力和时间的好处。尽管面临这些挑战，许多公司成功采用了滑模技术，收获了提高效率和改善结构质量的回报。总之，滑模技术代表了建筑方法的重要进步。它简化施工过程，同时提高混凝土结构的质量，使其成为现代建筑师工具箱中的重要工具。随着建筑行业继续发展，采用滑模等创新技术在塑造建筑设计和施工的未来中将发挥至关重要的作用。随着技术和材料的不断进步，滑模的潜在应用广泛，为建筑和土木工程领域的激动人心的发展承诺。