medium heavy loading

简明释义

平均重载

英英释义

例句

1.When lifting medium heavy loading (中等重载), ensure that you use proper techniques to avoid injury.

在搬运中等重载 (medium heavy loading)时，请确保使用正确的技巧以避免受伤。

2.The engineering team evaluated the structure's ability to withstand medium heavy loading (中等重载) during the design phase.

工程团队在设计阶段评估了结构承受中等重载 (medium heavy loading)的能力。

3.The warehouse has sections specifically allocated for medium heavy loading (中等重载) items like machinery parts.

仓库有专门分配给中等重载 (medium heavy loading)物品，如机械部件的区域。

4.The truck is designed to handle medium heavy loading (中等重载) for transporting construction materials.

这辆卡车设计用于处理中等重载 (medium heavy loading)以运输建筑材料。

5.For this project, we will require equipment that can support medium heavy loading (中等重载) without compromising safety.

对于这个项目，我们需要能够支持中等重载 (medium heavy loading)而不影响安全的设备。

作文

In the world of engineering and construction, understanding the various types of loads that structures must bear is crucial for ensuring safety and durability. One such term that often comes up in this context is medium heavy loading. This phrase refers to a specific range of weight or force that a structure, such as a bridge or a building, is designed to support without compromising its integrity. To grasp this concept fully, we need to break it down into its components and explore its implications in real-world applications.Firstly, let’s define what we mean by medium heavy loading. Generally, this term indicates a load that is heavier than a standard load but not as extreme as a heavy load. It typically encompasses weights that can range from moderate to substantial, depending on the context of the construction project. For instance, in civil engineering, a medium heavy loading might refer to the weight of vehicles on a bridge that is designed to accommodate both regular traffic and larger trucks without risk of structural failure.The significance of accurately assessing medium heavy loading cannot be overstated. Engineers must calculate the potential loads a structure will encounter throughout its lifespan. This includes not only the static loads, such as the weight of the materials used in construction, but also dynamic loads, which involve forces that change over time, like wind pressure and seismic activity. By understanding medium heavy loading, engineers can ensure that structures are built with the appropriate materials and design features to withstand these pressures.Moreover, when designing for medium heavy loading, engineers must consider several factors, including the material properties, load distribution, and safety margins. For example, steel and reinforced concrete are commonly used materials that can effectively handle medium heavy loading due to their high tensile strength and durability. However, the choice of material may vary based on environmental factors, cost considerations, and the specific requirements of the project.In practical applications, medium heavy loading is prevalent in various structures, including commercial buildings, parking garages, and industrial facilities. For instance, a multi-story parking garage must be designed to accommodate not only the weight of parked cars but also the dynamic forces exerted by vehicles moving in and out. Thus, engineers will assess the expected medium heavy loading to ensure that the structure remains safe and functional.Furthermore, understanding medium heavy loading plays a vital role in maintenance and inspections. Structures that experience significant loads over time may develop wear and tear, necessitating regular assessments to determine their current load-bearing capacity. If a structure was initially designed for medium heavy loading, but over time it has been subjected to heavier loads, engineers must evaluate whether reinforcements or modifications are needed to maintain safety standards.In conclusion, the term medium heavy loading serves as a critical concept in the field of engineering and construction. It highlights the importance of understanding the various loads that structures must endure and the need for careful planning and design to ensure longevity and safety. As we continue to build and innovate, recognizing the implications of medium heavy loading will remain essential for engineers and architects alike, ultimately contributing to safer and more resilient infrastructure in our communities.

在工程和建筑的世界中，理解结构必须承受的各种负荷对于确保安全性和耐久性至关重要。一个常常出现在这种情况下的术语是中等重载。这个短语指的是结构（如桥梁或建筑物）设计用来支持而不妨碍其完整性的一定范围的重量或力。为了充分掌握这个概念，我们需要将其分解为组成部分，并探讨其在现实应用中的含义。首先，让我们定义一下中等重载的含义。通常，这个术语表示比标准负荷更重，但又没有达到重负荷的程度。它通常涵盖的重量范围可以从适中到相当可观，具体取决于建筑项目的上下文。例如，在土木工程中，中等重载可能指的是一座桥上车辆的重量，该桥设计用于同时承载常规交通和大型卡车，而不危及结构的安全。准确评估中等重载的重要性不容低估。工程师必须计算结构在其整个生命周期内可能遇到的潜在负荷。这不仅包括静态负荷，例如建筑材料的重量，还包括动态负荷，涉及随时间变化的力量，如风压和地震活动。通过理解中等重载，工程师可以确保结构使用适当的材料和设计特征，以承受这些压力。此外，在为中等重载设计时，工程师必须考虑多个因素，包括材料属性、负荷分布和安全裕度。例如，钢材和钢筋混凝土是常用的材料，由于其高抗拉强度和耐久性，可以有效处理中等重载。然而，材料的选择可能会根据环境因素、成本考虑和项目的具体要求而有所不同。在实际应用中，中等重载在各种结构中普遍存在，包括商业建筑、停车场和工业设施。例如，多层停车场必须设计以容纳不仅是停放汽车的重量，还要考虑车辆进出时施加的动态力量。因此，工程师将评估预期的中等重载，以确保结构的安全性和功能性。此外，理解中等重载在维护和检查中也发挥着重要作用。经历显著负荷的结构可能随着时间的推移而出现磨损，因此需要定期评估以确定其当前的承载能力。如果一座结构最初是为中等重载设计的，但随着时间的推移，它却遭受了更重的负荷，工程师必须评估是否需要进行加固或修改，以保持安全标准。总之，术语中等重载在工程和建筑领域中是一个关键概念。它强调了理解结构必须承受的各种负荷的重要性，以及仔细规划和设计以确保耐久性和安全性的必要性。随着我们不断建设和创新，认识到中等重载的影响将继续对工程师和建筑师至关重要，最终有助于在我们的社区中建立更安全、更具韧性的基础设施。