plate load
简明释义
板极负载
英英释义
例句
1.To avoid structural failure, the plate load must not exceed the recommended limits.
为了避免结构失效,板载荷不得超过推荐限制。
2.The engineer calculated the maximum plate load to ensure the foundation could support the building's weight.
工程师计算了最大板载荷以确保基础能够支撑建筑的重量。
3.During the test, we measured the plate load to determine the soil's bearing capacity.
在测试中,我们测量了板载荷以确定土壤的承载能力。
4.The plate load test revealed that the site was suitable for construction.
这个板载荷测试表明该地点适合建设。
5.We used a hydraulic press to apply a controlled plate load during the experiment.
我们在实验中使用液压机施加了一个受控的板载荷。
作文
In the field of civil engineering, understanding the concept of plate load is essential for designing safe and effective structures. The term plate load refers to the load applied to a specific area of soil or ground surface, usually through a plate or a similar structural element. This concept is crucial when assessing the bearing capacity of the soil, which is the maximum load that the ground can support without experiencing failure or excessive settlement.When engineers design foundations for buildings, bridges, or other structures, they must consider the plate load that will be imposed on the soil. This involves conducting various tests, such as the plate load test, which measures how the ground responds to different weights applied to a flat plate placed on the surface. By analyzing the results, engineers can determine how much weight the foundation can safely carry, ensuring the stability and durability of the structure.The importance of accurately calculating the plate load cannot be overstated. If the load exceeds the soil's bearing capacity, it can lead to severe consequences, including structural failure, uneven settling, or even catastrophic collapses. Therefore, engineers must take into account factors such as soil type, moisture content, and environmental conditions when evaluating the plate load.Moreover, the plate load is not only relevant during the initial construction phase but also plays a significant role in the long-term maintenance and safety of structures. Over time, changes in the environment, such as increased traffic loads, nearby construction, or natural disasters, can alter the conditions under which the original plate load calculations were made. Regular assessments are necessary to ensure that the structures remain safe and functional.In addition to its practical implications, the concept of plate load serves as a reminder of the intricate relationship between engineering and the natural world. Engineers must carefully balance the demands of human development with the limitations of the earth's materials. Understanding how plate load interacts with the soil helps engineers make informed decisions that prioritize safety and sustainability.Furthermore, advancements in technology have enhanced our ability to measure and analyze plate load. Modern tools like computer simulations and sophisticated sensors allow for more accurate predictions of how structures will behave under various loads. This technological progress supports the engineering community in creating safer, more resilient infrastructure that can withstand the challenges of our changing world.In conclusion, the concept of plate load is fundamental in civil engineering, impacting the design, construction, and maintenance of structures. By understanding and accurately calculating the plate load, engineers can ensure that buildings and other infrastructures are safe, stable, and capable of serving their intended purpose for many years to come. As we continue to innovate and improve our engineering practices, the significance of plate load will remain a cornerstone of responsible and effective design.
在土木工程领域,理解plate load的概念对于设计安全有效的结构至关重要。术语plate load指的是施加在土壤或地面特定区域上的负载,通常通过一个平板或类似的结构元素来实现。这个概念在评估土壤的承载能力时非常关键,承载能力是土壤在不发生失效或过度沉降的情况下所能支持的最大负载。当工程师为建筑、桥梁或其他结构设计基础时,他们必须考虑将施加在土壤上的plate load。这涉及进行各种测试,例如平板载荷测试,该测试测量土壤对施加在表面上平放的平板上的不同重量的反应。通过分析结果,工程师可以确定基础能够安全承载的重量,从而确保结构的稳定性和耐久性。准确计算plate load的重要性不容小觑。如果负载超过土壤的承载能力,可能会导致严重后果,包括结构失效、不均匀沉降,甚至灾难性的倒塌。因此,工程师在评估plate load时,必须考虑土壤类型、湿度和环境条件等因素。此外,plate load不仅在初始施工阶段相关,而且在结构的长期维护和安全中也发挥着重要作用。随着时间的推移,环境的变化,如交通负荷增加、附近的施工或自然灾害,可能会改变最初plate load计算所依据的条件。定期评估是必要的,以确保结构保持安全和功能正常。除了其实际意义外,plate load的概念还提醒我们工程与自然世界之间错综复杂的关系。工程师必须仔细平衡人类发展的需求与地球材料的限制。了解plate load如何与土壤相互作用,有助于工程师做出优先考虑安全和可持续性的明智决策。此外,技术的进步增强了我们测量和分析plate load的能力。现代工具如计算机模拟和复杂传感器使我们能够更准确地预测结构在各种负载下的表现。这一技术进步支持工程界创造更安全、更具韧性的基础设施,能够承受我们不断变化的世界所带来的挑战。总之,plate load的概念在土木工程中是基础,影响着结构的设计、施工和维护。通过理解和准确计算plate load,工程师可以确保建筑和其他基础设施在许多年内安全、稳定并能够发挥其预期功能。随着我们不断创新和改善工程实践,plate load的重要性将继续作为负责任和有效设计的基石。
