topping lift span

简明释义

单杆吊货法

英英释义

例句

1.Adjusting the topping lift span can enhance the stability of the load being lifted.

调整顶升跨度可以增强被提升负载的稳定性。

2.The crane's topping lift span allows it to reach higher points on the construction site.

起重机的顶升跨度使其能够到达建筑工地的更高点。

3.The engineer calculated the optimal topping lift span for the project to ensure safety.

工程师计算了项目的最佳顶升跨度以确保安全。

4.Understanding the topping lift span is crucial for effective crane operation.

理解顶升跨度对于有效的起重机操作至关重要。

5.In this project, the topping lift span was extended to accommodate larger materials.

在这个项目中，顶升跨度被延长以容纳更大的材料。

作文

In the field of engineering and construction, particularly in the realm of bridge design and large-scale structures, the term topping lift span plays a crucial role. The topping lift span refers to the distance between two points where a lifting mechanism is employed to hoist or position heavy materials, such as beams or panels, during the construction process. This concept is vital for ensuring that structures can be built safely and efficiently. Understanding the topping lift span is essential for engineers and construction managers alike, as it directly impacts the planning and execution of projects.When constructing large bridges or skyscrapers, the topping lift span must be carefully calculated to account for the weight of the materials being lifted and the capabilities of the cranes or other lifting devices used. Engineers will typically analyze factors such as load distribution, wind resistance, and structural integrity when determining the appropriate topping lift span. A miscalculation in this area can lead to serious safety hazards, including the risk of structural failure or accidents during the lifting process.Moreover, the topping lift span is not only important for safety but also for efficiency. By optimizing the lifting span, construction teams can minimize the time spent on site, reduce labor costs, and enhance productivity. For instance, if the topping lift span is too short, it may require multiple lifts to position a single element, thereby prolonging the construction timeline. Conversely, if the span is too long without proper support, it could result in instability and increased risk during the lift.In addition to the technical aspects, understanding the topping lift span also involves collaboration among various stakeholders. Architects, engineers, and construction workers must communicate effectively to ensure that everyone is aware of the specifications related to the topping lift span. This collaborative effort helps to streamline the construction process and ensures that all team members are aligned with the project's goals.Furthermore, advancements in technology have also influenced how the topping lift span is approached in modern construction. With the advent of sophisticated software and modeling tools, engineers can now simulate lifting scenarios and analyze the effects of different spans before actual construction begins. This not only enhances safety but also allows for more innovative designs that push the boundaries of what is possible in architecture and engineering.In conclusion, the term topping lift span encompasses a critical aspect of construction and engineering that affects both safety and efficiency. It requires careful consideration and collaboration among professionals in the field. By mastering the concept of topping lift span, engineers and construction managers can contribute to the successful completion of projects, ensuring that structures are built to last while maintaining high safety standards.

在工程和建筑领域，特别是在桥梁设计和大型结构的范围内，术语topping lift span扮演着至关重要的角色。topping lift span指的是在施工过程中使用提升机制来提升或定位重材料（如梁或面板）时两个点之间的距离。这个概念对于确保结构能够安全和高效地建造至关重要。理解topping lift span对工程师和施工经理来说都是必不可少的，因为它直接影响到项目的规划和执行。在建造大型桥梁或摩天大楼时，必须仔细计算topping lift span，以考虑所提升材料的重量以及用于提升的起重机或其他提升设备的能力。工程师通常会分析负载分布、风阻和结构完整性等因素，以确定适当的topping lift span。在这一领域的误算可能导致严重的安全隐患，包括结构失败或提升过程中的事故风险。此外，topping lift span不仅对安全重要，而且对效率也至关重要。通过优化提升跨度，施工团队可以最小化现场停留时间，降低人工成本，并提高生产力。例如，如果topping lift span过短，则可能需要多次提升才能定位单个元素，从而延长施工时间。相反，如果跨度过长而没有适当的支撑，则可能导致不稳定性和提升过程中增加的风险。除了技术方面，理解topping lift span还涉及各利益相关者之间的协作。建筑师、工程师和施工工人必须有效沟通，以确保每个人都了解与topping lift span相关的规格。这种协作努力有助于简化施工过程，并确保所有团队成员与项目目标保持一致。此外，技术的进步也影响了现代施工中如何处理topping lift span的问题。随着先进软件和建模工具的出现，工程师现在可以在实际施工开始之前模拟提升场景，分析不同跨度的效果。这不仅增强了安全性，还允许更具创新性的设计，推动建筑和工程领域的可能性。总之，术语topping lift span涵盖了施工和工程的一个关键方面，这影响到安全性和效率。它需要专业人员之间的仔细考虑和协作。通过掌握topping lift span的概念，工程师和施工经理可以为项目的成功完成做出贡献，确保结构经久耐用，同时保持高安全标准。