sub-division load line
简明释义
分舱载重线
英英释义
例句
1.The architect referred to the sub-division load line when calculating the load-bearing capacity.
建筑师在计算承载能力时参考了分部载荷线。
2.Adjustments were made to the sub-division load line after reviewing the structural analysis.
在审查结构分析后,对分部载荷线进行了调整。
3.Understanding the sub-division load line is crucial for designing safe buildings.
理解分部载荷线对于设计安全建筑至关重要。
4.The engineer marked the sub-division load line to ensure proper weight distribution across the structure.
工程师标记了分部载荷线以确保结构的重量分布正确。
5.During the inspection, the sub-division load line was found to be within acceptable limits.
在检查过程中,发现分部载荷线在可接受的范围内。
作文
In the field of engineering and construction, understanding various load lines is essential for ensuring safety and structural integrity. One such important term is the sub-division load line, which refers to a specific type of load line used in the design and analysis of structures. The sub-division load line (分部负荷线) is particularly relevant when dealing with complex structures that are divided into smaller sections or subdivisions. Each subdivision may have its own unique loading conditions, and the sub-division load line helps engineers assess how these loads interact with each other and affect the overall stability of the structure.When designing a building, for instance, engineers must consider various factors such as live loads, dead loads, wind loads, and seismic loads. These loads can vary significantly from one part of the structure to another. The sub-division load line allows engineers to break down these loads into manageable sections, making it easier to calculate the forces acting on each part of the structure. By analyzing each subdivision separately, engineers can identify potential weaknesses and ensure that each section can withstand the anticipated loads.Moreover, the sub-division load line plays a crucial role in compliance with building codes and regulations. Many jurisdictions require that structures meet specific safety standards, and the use of sub-division load lines can help demonstrate that a design meets these requirements. By providing detailed calculations and analyses based on the sub-division load line, engineers can present a compelling case for the safety and reliability of their designs.In addition to its practical applications, the concept of the sub-division load line also highlights the importance of collaboration among various disciplines within the engineering field. Structural engineers, civil engineers, and architects must work together to ensure that all aspects of a project are considered. The sub-division load line serves as a common reference point that facilitates communication and coordination among these professionals.Furthermore, the sub-division load line is not limited to just buildings; it can also be applied to bridges, dams, and other infrastructure projects. For example, when designing a bridge, engineers may divide the structure into several spans or sections. Each span will have its own set of loads, and the sub-division load line helps engineers analyze these loads to ensure that the entire bridge remains stable and safe under various conditions.In conclusion, the sub-division load line is a vital concept in the field of engineering that aids in the design and analysis of structures. By breaking down complex loads into manageable subdivisions, engineers can ensure that each part of a structure can withstand the forces acting upon it. This not only enhances the safety and reliability of the design but also fosters collaboration among various engineering disciplines. As we continue to build more complex and innovative structures, the importance of understanding and utilizing the sub-division load line will only grow, making it an essential tool for engineers and architects alike.
在工程和建筑领域,理解各种负荷线对于确保安全和结构完整性至关重要。其中一个重要术语是分部负荷线,它指的是在结构设计和分析中使用的一种特定类型的负荷线。分部负荷线(sub-division load line)在处理被划分为较小部分或分部的复杂结构时特别相关。每个分部可能有其独特的加载条件,而分部负荷线帮助工程师评估这些负荷如何相互作用并影响整体结构的稳定性。例如,在设计一栋建筑时,工程师必须考虑各种因素,如活荷载、死荷载、风荷载和地震荷载。这些荷载在结构的不同部分可能会显著变化。分部负荷线使工程师能够将这些荷载分解成可管理的部分,从而更容易计算作用于结构每个部分的力。通过单独分析每个分部,工程师可以识别潜在的弱点,并确保每个部分能够承受预期的荷载。此外,分部负荷线在遵守建筑规范和法规方面也发挥着至关重要的作用。许多管辖区要求结构符合特定的安全标准,而使用分部负荷线可以帮助证明设计满足这些要求。通过提供基于分部负荷线的详细计算和分析,工程师可以为其设计的安全性和可靠性提供有力的案例。除了其实际应用外,分部负荷线的概念还突显了工程领域内各学科之间合作的重要性。结构工程师、土木工程师和建筑师必须共同努力,以确保项目的所有方面都得到考虑。分部负荷线作为一个共同的参考点,促进了这些专业人士之间的沟通和协调。此外,分部负荷线不仅限于建筑物;它还可以应用于桥梁、大坝和其他基础设施项目。例如,在设计桥梁时,工程师可能会将结构划分为几个跨距或部分。每个跨距将有其自身的一组荷载,而分部负荷线帮助工程师分析这些荷载,以确保整座桥在各种条件下保持稳定和安全。总之,分部负荷线是工程领域中的一个重要概念,有助于结构的设计和分析。通过将复杂的荷载分解为可管理的分部,工程师可以确保结构的每个部分能够承受施加在其上的力。这不仅增强了设计的安全性和可靠性,还促进了各工程学科之间的合作。随着我们继续建造更复杂和创新的结构,理解和利用分部负荷线的重要性将愈发突出,使其成为工程师和建筑师不可或缺的工具。
