intensity of distributed load

简明释义

均匀负荷强度

英英释义

例句

1.The engineer calculated the intensity of distributed load to ensure the bridge could support the weight of vehicles.

工程师计算了分布载荷的强度以确保桥梁能够承受车辆的重量。

2.The architect specified the intensity of distributed load for the walls to ensure they could withstand wind pressure.

建筑师指定了墙体的分布载荷的强度以确保它们能够承受风压。

3.The intensity of distributed load on the roof needs to be assessed before installing solar panels.

在安装太阳能电池板之前，需要评估屋顶上的分布载荷的强度。

4.In structural analysis, understanding the intensity of distributed load is crucial for designing safe buildings.

在结构分析中，理解分布载荷的强度对于设计安全建筑至关重要。

5.Calculating the intensity of distributed load helps in determining the maximum allowable load for the floor.

计算分布载荷的强度有助于确定地板的最大允许载荷。

作文

In the field of structural engineering, understanding the intensity of distributed load is crucial for designing safe and efficient structures. A distributed load refers to a load that is spread over a certain length or area, as opposed to being concentrated at a single point. The intensity of distributed load specifically describes the magnitude of this load per unit length or area. For instance, if we consider a beam that supports a uniform load, the intensity of distributed load would be expressed in units such as pounds per foot or kilograms per square meter.When engineers design buildings, bridges, or other structures, they must take into account the intensity of distributed load to ensure that the materials used can withstand the forces applied to them. This involves calculating how much weight the structure will need to support and distributing that weight evenly across its components. Failure to properly account for the intensity of distributed load can lead to structural failures, which can have catastrophic consequences.One common example of distributed loads is the weight of snow on a roof during winter. The intensity of distributed load in this case would vary depending on the depth of the snow and the area of the roof it covers. Engineers must assess this load when designing roofs to ensure they can handle the maximum expected snow accumulation without collapsing.Another important application of understanding the intensity of distributed load is in the design of highways and bridges. Vehicles traveling on a road exert loads that can be considered distributed over the length of the pavement. The intensity of distributed load from traffic must be analyzed to determine the appropriate thickness and materials for the pavement, ensuring it remains durable and safe under various conditions.Moreover, the intensity of distributed load is not only limited to static loads; dynamic loads, such as those caused by moving vehicles or wind, must also be considered. Engineers use sophisticated calculations and simulations to predict how these loads will affect a structure over time, allowing them to make necessary adjustments in their designs.In conclusion, the intensity of distributed load is a fundamental concept in structural engineering that plays a vital role in ensuring the safety and functionality of various structures. By accurately determining the intensity of distributed load, engineers can design buildings, bridges, and other infrastructures that can withstand the forces they encounter throughout their lifespan. This understanding not only protects the integrity of the structures but also ensures the safety of the people who use them, highlighting the importance of careful planning and analysis in the field of engineering.

在结构工程领域，理解分布荷载强度对设计安全高效的结构至关重要。分布荷载是指在一定长度或面积上施加的荷载，而不是集中在一个点上。分布荷载强度具体描述了这个荷载在单位长度或面积上的大小。例如，如果我们考虑一根支撑均匀荷载的梁，则分布荷载强度将以每英尺磅或每平方米千克的单位表示。当工程师设计建筑物、桥梁或其他结构时，他们必须考虑分布荷载强度，以确保所用材料能够承受施加在其上的力量。这涉及到计算结构需要支持多少重量，并将该重量均匀分布在其组件上。未能正确考虑分布荷载强度可能导致结构失效，这可能会造成灾难性的后果。一个常见的分布荷载示例是冬季屋顶上的积雪重量。在这种情况下，分布荷载强度将根据雪的深度和覆盖屋顶的面积而变化。工程师在设计屋顶时必须评估这一荷载，以确保它们能够承受最大预期的积雪而不发生倒塌。理解分布荷载强度的另一个重要应用是在高速公路和桥梁的设计中。行驶在道路上的车辆对路面施加的荷载可以视为在路面长度上分布的。交通产生的分布荷载强度必须进行分析，以确定路面的适当厚度和材料，从而确保其在各种条件下保持耐用和安全。此外，分布荷载强度不仅限于静态荷载；动态荷载，如移动车辆或风引起的荷载，也必须考虑。工程师使用复杂的计算和模拟来预测这些荷载如何随着时间的推移影响结构，从而使他们能够在设计中进行必要的调整。总之，分布荷载强度是结构工程中的一个基本概念，在确保各种结构的安全性和功能性方面发挥着重要作用。通过准确确定分布荷载强度，工程师可以设计出能够承受其整个生命周期内遇到的力量的建筑物、桥梁和其他基础设施。这种理解不仅保护了结构的完整性，还确保了使用这些结构的人们的安全，突显了在工程领域中仔细规划和分析的重要性。