subdivision load line

简明释义

分舱载重水线

英英释义

例句

1.The engineer marked the subdivision load line on the blueprint to indicate the maximum load for each section.

工程师在蓝图上标记了分区负载线以指示每个部分的最大负载。

2.During the construction process, the workers were instructed to adhere to the subdivision load line to prevent overloading.

在施工过程中，工人被指示遵守分区负载线以防止超载。

3.Each floor of the building has a different subdivision load line based on its intended use.

建筑的每一层都有不同的分区负载线，这取决于其预期用途。

4.The architect revised the design after realizing that the original subdivision load line was too high.

建筑师在意识到原来的分区负载线过高后修订了设计。

5.Understanding the subdivision load line is crucial for ensuring the safety of the structure.

理解分区负载线对于确保结构的安全至关重要。

作文

In the field of engineering and construction, understanding various technical terms is essential for effective communication and successful project execution. One such term that frequently arises in discussions about structural design and load distribution is the subdivision load line. The subdivision load line refers to a specific line or boundary used to delineate different sections or subdivisions of a structure that are subject to varying loads. This concept is particularly important in the design of buildings, bridges, and other infrastructures where load distribution plays a critical role in ensuring safety and stability.To grasp the significance of the subdivision load line, one must first understand the basic principles of load distribution in structures. When a structure is built, it must be able to support not only its own weight but also any additional loads that may be applied to it, such as furniture, occupants, vehicles, or environmental factors like wind and snow. Engineers use various calculations and models to determine how these loads will affect different parts of the structure.The subdivision load line serves as a guideline for engineers when designing these load-bearing elements. By establishing clear boundaries for different sections of a structure, engineers can more accurately assess how loads will be distributed across those sections. This allows for more efficient use of materials, as well as enhanced safety measures. For instance, if a particular subdivision of a structure is expected to bear heavier loads, the engineers can reinforce that section accordingly.Moreover, the subdivision load line is crucial during the construction phase. It helps construction teams understand where to place supports, beams, and other structural elements. Proper adherence to the subdivision load line can prevent potential issues such as structural failure or excessive deformation over time. In essence, it acts as a roadmap for both design and construction, ensuring that every aspect of the building process aligns with engineering standards and safety regulations.In addition to its practical applications, the subdivision load line also plays a role in regulatory compliance. Many jurisdictions have specific codes and standards that dictate how load lines should be established and adhered to. Understanding these regulations is vital for architects and engineers to ensure their designs meet legal requirements and industry best practices.Furthermore, the concept of the subdivision load line extends beyond traditional construction projects. In modern engineering, particularly with the rise of modular and prefabricated construction techniques, understanding how loads are subdivided becomes even more critical. As structures become more complex and innovative, the need for precise load calculations and clear definitions of load lines will continue to grow.In conclusion, the subdivision load line is an integral part of structural engineering that aids in the design, construction, and maintenance of safe and reliable buildings and infrastructures. By clearly defining how loads are distributed across various sections of a structure, engineers can optimize material usage, enhance safety, and ensure compliance with regulatory standards. As construction methods evolve, the importance of mastering concepts like the subdivision load line will remain paramount for future engineers and architects, enabling them to create innovative and resilient structures that stand the test of time.

在工程和建筑领域，理解各种技术术语对于有效沟通和成功项目执行至关重要。一个在讨论结构设计和负载分配时经常出现的术语是分区负载线。分区负载线指的是用于划分结构不同部分或分区的特定线条或边界，这些部分承受不同的负载。这个概念在建筑、桥梁和其他基础设施的设计中尤其重要，因为负载分配在确保安全性和稳定性方面起着关键作用。要理解分区负载线的重要性，首先必须了解结构中负载分配的基本原理。当一座结构建成时，它必须能够支撑自己的重量以及可能施加于其上的任何额外负载，例如家具、居住者、车辆或环境因素如风和雪。工程师使用各种计算和模型来确定这些负载将如何影响结构的不同部分。分区负载线为工程师在设计这些承重元素时提供了指导。通过为结构的不同部分建立清晰的边界，工程师可以更准确地评估负载将如何在这些部分之间分配。这不仅可以更有效地使用材料，还可以增强安全措施。例如，如果结构的某个分区预计将承受更重的负载，工程师可以相应地加固该部分。此外，分区负载线在施工阶段也至关重要。它帮助施工团队了解在哪里放置支撑、梁和其他结构元素。正确遵循分区负载线可以防止潜在问题，例如结构失效或随着时间的推移出现过度变形。实际上，它作为设计和施工的路线图，确保建筑过程的每个方面都符合工程标准和安全法规。除了其实际应用外，分区负载线在合规性方面也发挥着作用。许多司法管辖区对如何建立和遵循负载线有具体的规范和标准。理解这些法规对于建筑师和工程师确保其设计符合法律要求和行业最佳实践至关重要。此外，分区负载线的概念超越了传统的建筑项目。在现代工程中，特别是随着模块化和预制建筑技术的兴起，理解负载如何被细分变得更加关键。随着结构变得越来越复杂和创新，对精确负载计算和负载线清晰定义的需求将继续增长。总之，分区负载线是结构工程的一个重要组成部分，有助于安全可靠的建筑和基础设施的设计、施工和维护。通过清晰定义负载在结构各部分之间的分配，工程师可以优化材料使用、增强安全性，并确保遵守监管标准。随着建筑方法的演变，掌握像分区负载线这样的概念对于未来的工程师和建筑师将继续至关重要，使他们能够创造出经得起时间考验的创新和韧性结构。