concentrated loads

简明释义

集中负荷

英英释义

例句

1.Engineers must calculate the effect of concentrated loads (集中荷载) on the structural integrity of buildings.

工程师必须计算集中荷载（集中荷载）对建筑物结构完整性的影响。

2.In construction, it’s crucial to identify concentrated loads (集中荷载) to ensure safety during the build process.

在施工中，识别集中荷载（集中荷载）对于确保施工安全至关重要。

3.The bridge was designed to withstand various types of concentrated loads (集中荷载) from heavy vehicles.

这座桥的设计能够承受来自重型车辆的各种类型的集中荷载（集中荷载）。

4.When analyzing the floor system, we must consider the impact of concentrated loads (集中荷载) from machinery.

在分析地板系统时，我们必须考虑来自机械的集中荷载（集中荷载）的影响。

5.The design specifications included guidelines for handling concentrated loads (集中荷载) in the warehouse.

设计规范包括在仓库中处理集中荷载（集中荷载）的指导方针。

作文

In the field of engineering and construction, understanding the concept of concentrated loads is crucial for ensuring the stability and safety of structures. A concentrated load refers to a force that is applied at a specific point on a structure, rather than being distributed evenly over an area. This can occur in various scenarios, such as when a heavy piece of machinery is placed on a floor or when a large beam supports a significant weight at its center. The implications of concentrated loads are significant because they can lead to localized stress and potential failure if not properly accounted for in the design phase.When engineers design buildings and bridges, they must calculate how concentrated loads will affect the materials used and the overall integrity of the structure. For instance, if a bridge is designed to hold a certain amount of weight, but the weight is concentrated in a small area due to a truck parking in one spot, the bridge may experience more stress than anticipated. This is why load distribution is a critical aspect of structural engineering. By analyzing concentrated loads, engineers can ensure that materials like steel and concrete can withstand the forces applied to them without leading to cracks or failures.Moreover, the effects of concentrated loads are not limited to static conditions. In dynamic situations, such as during an earthquake or high winds, the impact of these loads can change rapidly. Engineers must consider how concentrated loads can shift and cause unexpected stresses in a structure. This requires advanced modeling techniques and simulations to predict how buildings will respond to both static and dynamic loads.In addition to traditional construction, the concept of concentrated loads is also relevant in various fields such as mechanical engineering and aerospace. For example, in aircraft design, certain components must withstand concentrated forces during flight maneuvers. Similarly, in automotive engineering, the weight distribution of vehicles can create concentrated loads on specific parts of the chassis, affecting performance and safety.To mitigate the risks associated with concentrated loads, engineers often implement reinforcement strategies. This might include using thicker materials, adding support beams, or redistributing weight to ensure that no single point bears too much load. Additionally, regular maintenance and inspections are essential to identify any signs of stress or damage that could result from concentrated loads over time.In conclusion, the understanding of concentrated loads is vital across multiple engineering disciplines. It plays a critical role in the design, analysis, and maintenance of structures, ensuring they can safely support the forces exerted on them. By carefully considering concentrated loads during the planning stages, engineers can create safer and more reliable structures that withstand the test of time and environmental challenges.

在工程和建筑领域，理解集中载荷的概念对于确保结构的稳定性和安全性至关重要。集中载荷是指施加在结构特定点上的力，而不是均匀分布在一个区域。这种情况可能发生在各种场景中，例如当一台重型机械放置在地板上或当一根大梁在其中心支撑着显著的重量时。集中载荷的影响是显著的，因为如果在设计阶段没有正确考虑，它们可能导致局部应力和潜在的失败。当工程师设计建筑物和桥梁时，他们必须计算集中载荷如何影响所用材料和结构的整体完整性。例如，如果一座桥被设计为承受一定的重量，但由于一辆卡车停在一个地方，重量集中在一个小区域，那么桥可能会经历比预期更多的应力。这就是为什么负载分布是结构工程的关键方面。通过分析集中载荷，工程师可以确保像钢铁和混凝土这样的材料能够承受施加在它们上的力量，而不会导致裂缝或故障。此外，集中载荷的影响不仅限于静态条件。在动态情况下，例如在地震或强风期间，这些载荷的影响可能会迅速变化。工程师必须考虑集中载荷如何移动并导致结构中的意外应力。这需要先进的建模技术和模拟来预测建筑物如何响应静态和动态载荷。除了传统建筑外，集中载荷的概念在机械工程和航空航天等多个领域也很相关。例如，在飞机设计中，某些组件必须在飞行机动期间承受集中力量。同样，在汽车工程中，车辆的重量分布可能会在底盘的特定部分产生集中载荷，从而影响性能和安全性。为了减轻与集中载荷相关的风险，工程师通常会实施加固策略。这可能包括使用更厚的材料、增加支撑梁或重新分配重量，以确保没有单个点承受过多的负载。此外，定期维护和检查对于识别由于时间推移而可能由集中载荷引起的任何应力或损坏迹象至关重要。总之，理解集中载荷在多个工程学科中至关重要。它在结构的设计、分析和维护中发挥着关键作用，确保它们能够安全地支持施加在它们上的力量。通过在规划阶段仔细考虑集中载荷，工程师可以创建更安全、更可靠的结构，以抵御时间和环境挑战的考验。