buckling of plate

简明释义

板皱折

英英释义

例句

1.The architect presented a report on the buckling of plate (板材屈曲) phenomenon in high-rise buildings.

建筑师提交了一份关于高层建筑中buckling of plate（板材屈曲）现象的报告。

2.The engineer conducted a thorough analysis of the structure to prevent any potential buckling of plate (板材屈曲).

工程师对结构进行了全面分析，以防止可能的buckling of plate（板材屈曲）。

3.During the testing phase, they observed significant buckling of plate (板材屈曲) under heavy loads.

在测试阶段，他们观察到在重载下有显著的buckling of plate（板材屈曲）。

4.To ensure safety, the design must account for the buckling of plate (板材屈曲) in its calculations.

为了确保安全，设计必须在计算中考虑buckling of plate（板材屈曲）。

5.The construction team reinforced the beams to minimize the risk of buckling of plate (板材屈曲).

施工团队加固了梁，以最小化buckling of plate（板材屈曲）的风险。

作文

The phenomenon known as buckling of plate is a critical aspect in the field of structural engineering. It refers to the sudden failure of a structural element, typically a plate or a shell, due to compressive stresses that exceed a certain threshold. When a plate is subjected to compressive loads, it can deform in a way that leads to instability, resulting in a buckled shape. Understanding this concept is essential for engineers and architects to ensure the safety and integrity of their designs.In many structures, plates are used to bear loads and provide support. For instance, in bridges, buildings, and aircraft, plates play a vital role in distributing forces. However, if these plates are not designed properly, they may experience buckling of plate under excessive load. This can lead to catastrophic failures, which could endanger lives and result in significant financial losses.To prevent the buckling of plate, engineers utilize various methods. One common approach is to increase the thickness of the plate, which enhances its ability to withstand compressive forces. Another method involves using materials with higher strength-to-weight ratios, allowing for lighter yet stronger plates. Additionally, the shape and support conditions of the plates can be optimized to improve their resistance to buckling.The analysis of buckling of plate is often conducted using mathematical models and simulations. Engineers employ finite element analysis (FEA) to predict how a plate will behave under different loading conditions. By simulating various scenarios, they can identify potential weaknesses in the design and make necessary adjustments before construction begins.Moreover, the buckling of plate is not only limited to static loads; it also applies to dynamic loads, such as those caused by wind or seismic activity. In these cases, the likelihood of buckling increases, making it even more crucial for engineers to consider these factors during the design process. Structures must be able to withstand both expected and unexpected forces to maintain their stability and functionality.In conclusion, the buckling of plate is a significant concern in structural engineering, impacting the safety and durability of various constructions. Engineers must thoroughly understand this phenomenon to create resilient designs that can endure compressive stresses without failure. Through careful analysis, innovative materials, and thoughtful design strategies, the risks associated with the buckling of plate can be minimized, ensuring that structures remain safe and reliable for their intended use.

所谓的板材屈曲现象是结构工程领域中的一个关键方面。它指的是由于压缩应力超过某一阈值，导致结构元件（通常是板或壳体）突然失效。当板材受到压缩载荷时，它可能会以一种导致不稳定的方式变形，从而形成弯曲的形状。理解这一概念对于工程师和建筑师确保其设计的安全性和完整性至关重要。在许多结构中，板材用于承载负荷并提供支撑。例如，在桥梁、建筑物和飞机中，板材在分配力量方面发挥着重要作用。然而，如果这些板材设计不当，它们可能会在过大的负荷下经历板材屈曲。这可能导致灾难性的故障，危及生命并造成重大经济损失。为了防止板材屈曲，工程师采用各种方法。一种常见的方法是增加板材的厚度，从而增强其承受压缩力的能力。另一种方法是使用具有更高强度与重量比的材料，使板材更轻但更强。此外，板材的形状和支撑条件也可以优化，以提高它们对屈曲的抵抗力。板材屈曲的分析通常通过数学模型和模拟进行。工程师使用有限元分析（FEA）来预测板材在不同加载条件下的行为。通过模拟各种场景，他们可以识别设计中的潜在弱点，并在施工开始之前进行必要的调整。此外，板材屈曲不仅限于静态载荷；它还适用于动态载荷，例如风或地震活动引起的载荷。在这些情况下，屈曲的可能性增加，这使得工程师在设计过程中考虑这些因素变得更加重要。结构必须能够承受预期和意外的力量，以保持其稳定性和功能性。总之，板材屈曲在结构工程中是一个重要问题，影响着各种建筑的安全性和耐久性。工程师必须深入理解这一现象，以创建能够承受压缩应力而不发生故障的坚固设计。通过仔细分析、创新材料和周到的设计策略，可以最大程度地降低与板材屈曲相关的风险，确保结构在其预定用途上保持安全和可靠。