jumping formwork

简明释义

爬升模板

英英释义

例句

1.During the meeting, the contractor highlighted the benefits of using jumping formwork for the new skyscraper.

在会议上，承包商强调了为新摩天大楼使用跳模的好处。

2.Safety protocols were established for the operation of jumping formwork on the construction site.

施工现场为跳模的操作建立了安全协议。

3.The construction team decided to use jumping formwork to speed up the building process.

施工团队决定使用跳模来加快建筑进程。

4.With jumping formwork, we can achieve a higher level of efficiency in high-rise construction.

使用跳模，我们可以在高层建筑中实现更高的效率。

5.The engineers explained how jumping formwork minimizes labor costs on the project.

工程师解释了跳模如何降低项目的人工成本。

作文

In the world of construction, efficiency and innovation are key factors that determine the success of any project. One of the most remarkable advancements in this field is the use of jumping formwork, a technique that has revolutionized the way high-rise buildings are constructed. This method not only enhances the speed of construction but also improves the overall quality of the structure. To fully understand the significance of jumping formwork, it is essential to explore its definition, advantages, and applications in modern architecture.Jumping formwork refers to a system of formwork that is used for constructing vertical concrete elements, such as walls and cores, in high-rise buildings. This method allows the formwork to 'jump' or move upward as each floor is completed, enabling continuous construction without the need to dismantle and reassemble the formwork after each level. This technique is especially beneficial in tall buildings where traditional formwork systems would be inefficient and time-consuming.One of the primary advantages of jumping formwork is its ability to significantly reduce construction time. In conventional methods, workers must wait for the concrete to cure before removing the formwork, which can lead to delays and increased labor costs. However, with jumping formwork, the system can be repositioned quickly, allowing for a faster workflow. This efficiency not only shortens the project timeline but also minimizes the overall labor costs associated with construction.Moreover, jumping formwork enhances the safety of construction sites. Traditional formwork systems often require workers to climb up and down scaffolding, which poses risks of falls and accidents. In contrast, jumping formwork is designed to provide a safer working environment by reducing the need for scaffolding and allowing workers to operate at a stable height. This improvement in safety measures is crucial in ensuring the well-being of construction personnel.The structural integrity of buildings constructed using jumping formwork is another noteworthy aspect. The system allows for uniform concrete pouring, which results in fewer seams and joints in the final structure. This uniformity contributes to the overall strength and durability of the building, making it more resistant to environmental factors such as wind and earthquakes. As urban areas continue to grow, the demand for resilient and robust structures becomes increasingly important, and jumping formwork plays a vital role in meeting this demand.In addition to its practical benefits, jumping formwork also offers a level of design flexibility that is appealing to architects and engineers. The ability to create complex shapes and forms without compromising structural integrity opens up new possibilities for innovative designs in skyscrapers and other tall buildings. This adaptability allows for more creative expressions in architectural design, which can enhance the aesthetic appeal of urban landscapes.In conclusion, the adoption of jumping formwork in modern construction represents a significant leap forward in efficiency, safety, and design flexibility. As the construction industry continues to evolve, embracing such innovative techniques will be essential for meeting the challenges of building taller and more complex structures. The impact of jumping formwork extends beyond mere construction; it shapes the future of urban development and influences how we experience our built environment. Understanding and utilizing this technique is crucial for anyone involved in the construction industry today, as it embodies the essence of progress and innovation in building practices.

在建筑领域，效率和创新是决定任何项目成功的关键因素。跳跃模板是该领域最显著的进步之一，这一技术彻底改变了高层建筑的建造方式。这种方法不仅提高了施工速度，还改善了结构的整体质量。要充分理解跳跃模板的重要性，有必要探讨它的定义、优点及其在现代建筑中的应用。跳跃模板是指用于建造高层建筑中垂直混凝土构件（如墙体和核心）的模板系统。这种方法允许模板在每层完成后“跳跃”或向上移动，从而实现连续施工，而无需在每层之后拆卸和重新组装模板。这项技术在高层建筑中尤其有利，因为传统的模板系统效率低下且耗时。跳跃模板的主要优点之一是能够显著缩短施工时间。在传统方法中，工人必须等混凝土固化后才能拆除模板，这可能导致延误和增加劳动成本。然而，通过使用跳跃模板，系统可以快速重新定位，从而加快工作流程。这种效率不仅缩短了项目时间表，还最小化了与施工相关的整体劳动成本。此外，跳跃模板还提高了施工现场的安全性。传统的模板系统通常要求工人在脚手架上上下攀爬，这会带来跌落和事故的风险。相比之下，跳跃模板设计旨在通过减少对脚手架的需求，提供一个更安全的工作环境，并允许工人在稳定的高度操作。这种安全措施的改善对于确保建筑人员的福祉至关重要。使用跳跃模板建造的建筑物的结构完整性也是一个值得注意的方面。该系统允许均匀地浇筑混凝土，从而在最终结构中减少接缝和接头。这种均匀性有助于建筑的整体强度和耐久性，使其更能抵御风和地震等环境因素。随着城市区域的不断发展，对坚固耐用结构的需求变得越来越重要，而跳跃模板在满足这一需求中发挥着至关重要的作用。除了实用好处外，跳跃模板还为建筑师和工程师提供了设计灵活性。这种在不妨碍结构完整性的情况下创建复杂形状和形式的能力，为摩天大楼和其他高层建筑的创新设计开辟了新的可能性。这种适应性使建筑设计的创造性表达更加丰富，从而提升了城市景观的美学吸引力。总之，跳跃模板在现代建筑中的采用代表了在效率、安全性和设计灵活性方面的一次重大飞跃。随着建筑行业的不断发展，采用这样的创新技术对满足建造更高、更复杂结构的挑战至关重要。跳跃模板的影响超越了单纯的施工；它塑造了城市发展的未来，并影响着我们如何体验我们的建筑环境。理解和利用这一技术对于今天参与建筑行业的任何人来说都是至关重要的，因为它体现了建筑实践中进步和创新的本质。