uniformly distributed load

简明释义

均匀分布负载

英英释义

例句

1.The floor of the building is rated for a uniformly distributed load 均匀分布荷载 of 50 pounds per square foot.

建筑物的地板额定承受均匀分布荷载为每平方英尺50磅。

2.The calculations showed that the uniformly distributed load 均匀分布荷载 would not exceed the beam's capacity.

计算显示均匀分布荷载不会超过梁的承载能力。

3.To ensure safety, the design must account for a uniformly distributed load 均匀分布荷载 during an earthquake.

为了确保安全，设计必须考虑地震期间的均匀分布荷载。

4.In structural engineering, a beam is designed to support a uniformly distributed load 均匀分布荷载 from the weight of the roof.

在结构工程中，梁被设计为支持来自屋顶重量的均匀分布荷载。

5.When calculating the strength of a bridge, engineers must consider the uniformly distributed load 均匀分布荷载 that vehicles exert on it.

在计算桥梁的强度时，工程师必须考虑车辆对其施加的均匀分布荷载。

作文

Understanding the concept of a uniformly distributed load is essential for anyone involved in engineering, construction, or architecture. A uniformly distributed load refers to a load that is spread evenly across a structure, such as a beam or a slab. This means that every part of the structure experiences the same amount of load per unit area. This concept is crucial when designing structures because it allows engineers to predict how loads will affect the integrity and stability of the structure over time.In practical terms, imagine a flat roof that is designed to hold a certain amount of weight, such as snow or equipment. If the weight is evenly distributed across the roof, it can be considered a uniformly distributed load. This uniformity simplifies calculations and helps engineers determine how much stress the materials can withstand without failing. For instance, if a roof is subjected to a uniformly distributed load of 50 pounds per square foot, engineers can easily calculate the total load by multiplying this value by the area of the roof.One of the key benefits of understanding uniformly distributed loads is that it aids in the selection of appropriate materials for construction. Different materials have different strengths and weaknesses, and knowing how loads are distributed can help engineers choose materials that will perform well under specific conditions. For example, steel beams might be used in areas where a uniformly distributed load is expected, while concrete might be preferred in other situations.Moreover, analyzing uniformly distributed loads is a fundamental aspect of structural analysis. Engineers often use mathematical models to simulate how structures respond to various loads. By applying the principles of uniformly distributed loads, they can identify potential failure points and make necessary adjustments to their designs. This proactive approach ensures that buildings and bridges can withstand the forces they encounter throughout their lifespan.In addition, understanding uniformly distributed loads is not only important for new constructions but also for assessing existing structures. Over time, buildings may settle or experience wear and tear, which can affect how loads are distributed. Regular inspections and evaluations can help identify issues related to uniformly distributed loads, allowing for timely repairs and maintenance.In conclusion, the concept of a uniformly distributed load plays a vital role in the fields of engineering and construction. It simplifies design calculations, aids in material selection, and enhances safety through rigorous structural analysis. Whether designing new structures or assessing existing ones, understanding how loads are distributed is crucial for ensuring the longevity and safety of our built environment. As we continue to develop more complex structures, the importance of accurately accounting for uniformly distributed loads will only grow, making it an essential topic for future engineers and architects to master.

理解均匀分布载荷的概念对于任何涉及工程、建筑或建筑设计的人来说都是至关重要的。均匀分布载荷是指均匀地分布在结构（如梁或板）上的载荷。这意味着结构的每个部分每单位面积承受相同的载荷。这一概念在设计结构时至关重要，因为它使工程师能够预测载荷如何随着时间的推移影响结构的完整性和稳定性。在实际操作中，想象一个平坦的屋顶，它被设计成承受一定的重量，例如雪或设备。如果重量均匀分布在屋顶上，则可以认为这是一个均匀分布载荷。这种均匀性简化了计算，并帮助工程师确定材料在不失败的情况下能够承受多少压力。例如，如果一个屋顶受到每平方英尺50磅的均匀分布载荷，工程师可以通过将此值乘以屋顶的面积来轻松计算总载荷。理解均匀分布载荷的一个主要好处是有助于选择适当的建筑材料。不同的材料具有不同的强度和弱点，了解载荷如何分布可以帮助工程师选择在特定条件下表现良好的材料。例如，在预计会有均匀分布载荷的区域可能会使用钢梁，而在其他情况下可能更喜欢混凝土。此外，分析均匀分布载荷是结构分析的基本方面。工程师通常使用数学模型来模拟结构对各种载荷的响应。通过应用均匀分布载荷的原理，他们可以识别潜在的失效点并对设计进行必要的调整。这种主动的方法确保建筑物和桥梁能够承受它们在整个生命周期中遇到的力量。此外，理解均匀分布载荷不仅对于新建构造很重要，而且对于评估现有结构也同样重要。随着时间的推移，建筑物可能会下沉或经历磨损，这可能会影响载荷的分布。定期检查和评估可以帮助识别与均匀分布载荷相关的问题，从而允许及时的修复和维护。总之，均匀分布载荷的概念在工程和建筑领域发挥着至关重要的作用。它简化了设计计算，有助于材料选择，并通过严格的结构分析增强了安全性。无论是设计新结构还是评估现有结构，理解载荷的分布对于确保我们建筑环境的持久性和安全性至关重要。随着我们继续开发更复杂的结构，准确考虑均匀分布载荷的重要性只会增加，使其成为未来工程师和建筑师必须掌握的关键主题。