pile height

简明释义

绒头高

英英释义

例句

1.To prevent flooding, the pile height 桩高 must be above the expected water level.

为了防止洪水，桩高 pile height必须高于预期的水位。

2.The engineer specified the pile height 桩高 to ensure stability during construction.

工程师指定了桩高 pile height以确保施工期间的稳定性。

3.Before the foundation work begins, we need to measure the pile height 桩高 accurately.

在基础工作开始之前，我们需要准确测量桩高 pile height。

4.The contractor adjusted the pile height 桩高 to meet the new design requirements.

承包商调整了桩高 pile height以符合新的设计要求。

5.Different soil types can affect the required pile height 桩高 for a building.

不同的土壤类型会影响建筑物所需的桩高 pile height。

作文

In the field of engineering and construction, understanding the concept of pile height is essential for ensuring the stability and safety of structures. The term pile height refers to the vertical measurement of a pile, which is a long cylindrical structure driven into the ground to support buildings and other loads. Piles are typically made of materials such as concrete, steel, or wood, and their height can vary depending on the requirements of the specific project. When constructing a building, the pile height must be carefully calculated to ensure that it reaches a sufficient depth to provide adequate support. This is particularly important in areas with poor soil conditions where traditional foundations may not be feasible. Engineers conduct site assessments to determine the load-bearing capacity of the soil and to decide on the appropriate pile height needed to safely distribute the weight of the structure above. Moreover, the pile height can also influence the overall design of the building. For instance, if a structure requires a taller pile height due to heavy loads or unstable soil, this could affect the architectural design, leading to additional considerations regarding aesthetics and functionality. Therefore, collaboration between structural engineers and architects is crucial during the planning phase to ensure that the pile height aligns with both safety standards and design intentions. Furthermore, the installation process of piles and the determination of their pile height can also impact the project's timeline and budget. Incorrect calculations or misjudgments in the required pile height can lead to costly delays and modifications during construction. Therefore, precise measurements and adherence to engineering standards are vital. In addition to its importance in construction, the concept of pile height is also relevant in environmental engineering, especially in projects involving marine structures or foundations in flood-prone areas. Here, the pile height must account for potential water levels and environmental changes over time. Engineers must consider factors such as erosion, sedimentation, and climate change when determining the appropriate pile height for these projects. In conclusion, the significance of pile height in engineering cannot be overstated. It plays a critical role in the safety, stability, and design of structures. A thorough understanding of how to calculate and implement the correct pile height is essential for engineers and architects alike. By prioritizing accurate assessments and collaborative planning, construction projects can achieve both functional and aesthetic goals while ensuring the safety and longevity of the structures built. As the demands of modern construction continue to evolve, so too will the methods and technologies used to determine and implement effective pile height solutions.

在工程和建筑领域，理解桩高的概念对于确保结构的稳定性和安全性至关重要。术语桩高指的是桩的垂直测量，它是一种长圆柱形结构，打入地下以支撑建筑物和其他负载。桩通常由混凝土、钢材或木材等材料制成，其高度可以根据特定项目的要求而有所不同。在建造建筑物时，必须仔细计算桩高以确保其达到足够的深度以提供适当的支撑。这在土壤条件较差的地区尤为重要，因为传统基础可能不可行。工程师会进行现场评估，以确定土壤的承载能力，并决定所需的适当桩高以安全地分配上方结构的重量。此外，桩高也会影响建筑的整体设计。例如，如果一个结构由于重负荷或不稳定的土壤需要更高的桩高，这可能会影响建筑设计，导致在美学和功能性方面需要额外考虑。因此，在规划阶段，结构工程师和建筑师之间的合作至关重要，以确保桩高符合安全标准和设计意图。此外，桩的安装过程及其桩高的确定也会影响项目的时间表和预算。错误的计算或对所需桩高的误判可能会导致施工过程中的成本延误和修改。因此，精确的测量和遵循工程标准至关重要。除了在建筑中的重要性，桩高的概念在环境工程中也很相关，尤其是在涉及海洋结构或洪水易发地区的基础项目中。在这里，桩高必须考虑潜在的水位和随时间变化的环境因素。工程师在确定这些项目的适当桩高时，必须考虑侵蚀、沉积和气候变化等因素。总之，桩高在工程中的重要性不容小觑。它在结构的安全性、稳定性和设计中扮演着关键角色。全面理解如何计算和实施正确的桩高对工程师和建筑师来说至关重要。通过优先考虑准确的评估和协作规划，建设项目可以实现功能和美学目标，同时确保所建结构的安全性和耐久性。随着现代建筑需求的不断演变，用于确定和实施有效桩高解决方案的方法和技术也将不断发展。