irregularly distributed load

简明释义

不均匀分布荷载

英英释义

例句

1.During the inspection, we found that the floor had an irregularly distributed load due to the placement of heavy machinery.

在检查中，我们发现由于重型机械的放置，地板上有不规则分布的荷载。

2.The software can simulate how an irregularly distributed load affects the performance of the building.

该软件可以模拟不规则分布的荷载如何影响建筑的性能。

3.Engineers must consider the effects of an irregularly distributed load when calculating the stability of the structure.

工程师在计算结构的稳定性时必须考虑不规则分布的荷载的影响。

4.The bridge was designed to withstand an irregularly distributed load, which can occur during heavy traffic.

这座桥被设计成能够承受不规则分布的荷载，这种情况可能在交通繁忙时发生。

5.In the case of a roof, an irregularly distributed load from snow accumulation can lead to structural failure.

在屋顶的情况下，来自积雪的不规则分布的荷载可能导致结构失效。

作文

In the field of engineering, particularly in structural analysis, understanding the concept of an irregularly distributed load is crucial for designing safe and efficient structures. An irregularly distributed load refers to a load that does not have a uniform distribution across a surface or structure. This type of load can vary in magnitude and direction at different points, making it more complex to analyze compared to a uniformly distributed load, which is evenly spread out. For example, consider a bridge that supports vehicles of varying weights. If a heavy truck travels over the bridge, it creates an irregularly distributed load because the weight is concentrated in specific areas rather than being evenly distributed across the entire surface of the bridge. Engineers must account for these variations when calculating the stresses and strains on the bridge materials to ensure that it can withstand such loads without failing.The implications of an irregularly distributed load extend beyond bridges; they are also significant in the design of buildings, towers, and other structures. In residential construction, for instance, furniture placement can create an irregularly distributed load on floors. A heavy bookshelf against one wall can lead to uneven stress on the floor joists, potentially causing structural issues over time. Therefore, architects and builders must consider these factors during the design phase to mitigate risks associated with uneven loading.Moreover, the analysis of irregularly distributed loads often involves advanced mathematical techniques and computational tools. Engineers use software that can simulate how various loads will affect a structure under different conditions. By inputting data about the expected loads, including any irregularly distributed loads, engineers can visualize how the structure will respond and make necessary adjustments to ensure safety and stability.In addition to physical structures, the concept of irregularly distributed loads can also apply to other fields such as electrical engineering. For instance, in electrical circuits, a load that is not evenly distributed can lead to issues like overheating or circuit failure. Understanding how to manage these loads is essential for creating reliable electrical systems.In conclusion, the concept of an irregularly distributed load is integral to various engineering disciplines. It requires careful consideration and analysis to ensure that structures can support varying loads without compromising safety. Whether in civil engineering, mechanical systems, or electrical circuits, recognizing and addressing the challenges posed by irregularly distributed loads is vital for successful engineering practice. As technology advances, the tools and methods available for analyzing these loads continue to improve, allowing for safer and more innovative designs in the future.

在工程领域，特别是结构分析中，理解“不均匀分布荷载”的概念对于设计安全高效的结构至关重要。“不均匀分布荷载”指的是在一个表面或结构上没有均匀分布的荷载。这种类型的荷载在不同点的大小和方向可能会有所变化，使其比均匀分布的荷载更复杂。例如，考虑一座支撑车辆的桥梁。如果一辆重型卡车经过桥梁，它会产生一个“不均匀分布荷载”，因为重量集中在特定区域，而不是均匀分布在整个桥面上。工程师必须在计算桥梁材料的应力和应变时考虑这些变化，以确保桥梁能够承受此类荷载而不发生故障。“不均匀分布荷载”的影响不仅限于桥梁；在建筑、塔楼和其他结构的设计中也同样重要。在住宅建筑中，例如，家具的放置可能会对地板产生“不均匀分布荷载”。一面墙上的重书架可能导致地板横梁的应力不均匀，从而可能导致结构问题。因此，建筑师和施工人员在设计阶段必须考虑这些因素，以减轻与不均匀荷载相关的风险。此外，对于“不均匀分布荷载”的分析通常涉及高级数学技术和计算工具。工程师使用可以模拟各种荷载如何影响结构的软件。通过输入预期荷载的数据，包括任何“不均匀分布荷载”，工程师可以可视化结构将如何响应，并进行必要的调整以确保安全和稳定。除了物理结构外，“不均匀分布荷载”的概念也适用于其他领域，如电气工程。例如，在电路中，不均匀分布的负载可能导致过热或电路故障。理解如何管理这些负载对于创建可靠的电气系统至关重要。总之，“不均匀分布荷载”的概念在各个工程学科中都是不可或缺的。它需要仔细的考虑和分析，以确保结构能够支持不同的荷载而不危及安全。无论是在土木工程、机械系统还是电气电路中，识别和解决“不均匀分布荷载”所带来的挑战对于成功的工程实践至关重要。随着技术的发展，用于分析这些荷载的工具和方法不断改进，使未来的设计更加安全和创新。