racking load

简明释义

横倾引起的负载

英英释义

例句

1.The design of the warehouse must account for the racking load to prevent collapse.

仓库的设计必须考虑到侧向载荷以防止倒塌。

2.To improve safety, all staff must be trained on the limits of racking load for each storage unit.

为了提高安全性，所有员工必须接受关于每个存储单元的侧向载荷限制的培训。

3.The engineer calculated the maximum racking load to ensure the structure could withstand lateral forces.

工程师计算了最大侧向载荷以确保结构能够承受横向力。

4.The forklift operator was reminded not to exceed the racking load when stacking pallets.

叉车操作员被提醒在堆放托盘时不要超过侧向载荷。

5.During the inspection, we found that the shelves were overloaded beyond their racking load capacity.

在检查过程中，我们发现货架的负荷超过了其侧向载荷能力。

作文

In the field of engineering and construction, understanding various types of loads is crucial for ensuring the safety and stability of structures. One such type of load is the racking load, which refers to the forces that cause a structure to deform or twist. This load is particularly important in the design of buildings and frameworks that are subjected to lateral forces, such as those from wind or seismic activity. The racking load can lead to significant structural issues if not properly accounted for during the design phase.When engineers design a building, they must consider how different loads will affect its integrity. The racking load specifically arises when lateral forces act on a structure, causing it to experience shear and torsion. This is especially relevant in multi-story buildings where the upper floors may sway independently of the lower floors during high winds or earthquakes. If the racking load is not adequately addressed, it can result in catastrophic failures, leading to property damage and potential loss of life.To mitigate the effects of racking load, engineers often incorporate bracing systems into their designs. These systems help to distribute the lateral forces evenly across the structure, thus reducing the risk of deformation. For instance, cross-bracing or shear walls can be used to enhance the rigidity of a building, allowing it to better withstand the forces that contribute to racking load. The choice of materials also plays a significant role; using steel or reinforced concrete can provide additional strength against these lateral forces.Moreover, understanding the racking load is not only essential for new constructions but also for the retrofitting of older buildings. Many structures built before modern engineering practices may not have been designed to handle the racking load effectively. As a result, engineers often conduct assessments on older buildings to determine their ability to withstand current standards of lateral forces. This assessment may lead to recommendations for reinforcements or modifications to ensure safety.In conclusion, the concept of racking load is a fundamental aspect of structural engineering that cannot be overlooked. It is imperative for engineers to understand how this load affects the stability and safety of buildings, especially in areas prone to natural disasters. Through proper design and the implementation of effective bracing systems, the risks associated with racking load can be significantly minimized, ensuring that structures remain safe and secure for their occupants. As our understanding of engineering principles continues to evolve, so too will our approaches to managing the challenges posed by racking load and other structural forces.

在工程和建筑领域，理解各种类型的荷载对于确保结构的安全性和稳定性至关重要。其中一种荷载是racking load，指的是导致结构变形或扭曲的力。这种荷载在设计受到侧向力影响的建筑和框架时尤为重要，例如来自风或地震活动的力量。如果在设计阶段没有正确考虑racking load，可能会导致严重的结构问题。当工程师设计建筑时，他们必须考虑不同荷载如何影响其完整性。racking load特别是在侧向力作用于结构时产生，导致其经历剪切和扭转。这在多层建筑中尤其相关，因为上层楼面在强风或地震期间可能会独立于下层楼面摇摆。如果没有充分应对racking load，可能会导致灾难性的失败，造成财产损失和潜在的生命损失。为了减轻racking load的影响，工程师通常在设计中加入支撑系统。这些系统有助于将侧向力均匀分布到结构上，从而降低变形的风险。例如，可以使用交叉支撑或剪切墙来增强建筑的刚度，使其能够更好地抵御导致racking load的力量。材料的选择也起着重要作用；使用钢材或钢筋混凝土可以提供额外的强度，以抵御这些侧向力量。此外，理解racking load不仅对新建建筑至关重要，也对老建筑的加固同样重要。许多在现代工程实践之前建造的结构可能并未设计成有效承受racking load。因此，工程师通常会对老建筑进行评估，以确定其是否能够承受当前的侧向力标准。这项评估可能会导致对加固或修改的建议，以确保安全。总之，racking load的概念是结构工程的一个基本方面，不能被忽视。工程师必须理解这种荷载如何影响建筑的稳定性和安全性，尤其是在自然灾害频发的地区。通过适当的设计和有效的支撑系统的实施，可以显著降低与racking load相关的风险，确保结构对其居住者保持安全和稳固。随着我们对工程原理理解的不断发展，我们对管理racking load及其他结构力量所带来的挑战的方法也将不断演进。