normally loaded condition
简明释义
正常载荷状态
英英释义
A state in which a system, structure, or component is subjected to the expected or typical loads it would experience during regular operation. | 一个系统、结构或组件在正常操作中所承受的预期或典型负载的状态。 |
例句
1.In a normally loaded condition 正常负载条件, the vehicle's suspension system should perform optimally.
在正常负载条件下,车辆的悬挂系统应表现最佳。
2.The calculations were made assuming a normally loaded condition 正常负载条件 for safety.
这些计算是在假设正常负载条件下进行的,以确保安全。
3.The bridge was designed to withstand forces in a normally loaded condition 正常负载条件.
这座桥的设计是为了承受在正常负载条件下的力量。
4.The structural integrity of the building must be verified for normally loaded conditions 正常负载条件.
必须验证建筑物在正常负载条件下的结构完整性。
5.Engine performance is tested under normally loaded conditions 正常负载条件 to ensure reliability.
发动机性能在正常负载条件下进行测试,以确保可靠性。
作文
In the field of engineering, especially in structural and mechanical design, understanding the concept of a normally loaded condition is crucial. This term refers to the standard or expected load that a structure or component experiences during its regular use. For instance, consider a bridge: it is designed to support the weight of vehicles, pedestrians, and environmental factors such as wind and rain under a normally loaded condition. Engineers must account for these loads to ensure safety and functionality.When designing any structure, engineers begin by assessing the normally loaded condition. They analyze various factors such as the materials used, the intended use of the structure, and environmental impacts. This analysis helps them determine the maximum load the structure can withstand without failure. For example, a building must be able to support not only the weight of its own materials but also the weight of occupants, furniture, and equipment under a normally loaded condition. To illustrate further, let's take the example of a high-rise building. The design team will calculate the normally loaded condition by estimating the average number of people who will occupy the building at any given time, along with the weight of furnishings and other elements. This calculation is essential because it informs decisions on material selection, structural reinforcements, and overall design. If the building is to be used for offices, the engineers might assume a different loading scenario compared to a residential building, where the load could vary significantly.Moreover, the normally loaded condition is not static; it can change based on usage patterns and external factors. For instance, during holidays, a commercial space may experience an influx of visitors, altering its loading condition temporarily. Engineers must anticipate these variations and design structures that can accommodate both normally loaded conditions and unexpected loads, ensuring safety and stability.Testing plays a vital role in validating the assumptions made about normally loaded conditions. Engineers often conduct simulations and physical tests to observe how a structure behaves under expected loads. These tests help identify potential weaknesses and allow for adjustments before construction is completed. For instance, if a bridge is tested under a normally loaded condition and shows signs of stress, engineers can reinforce it before it opens to traffic. In conclusion, the concept of a normally loaded condition is fundamental in engineering and architecture. It ensures that structures are safe, reliable, and fit for their intended purpose. By understanding and applying this concept, engineers can design buildings, bridges, and other infrastructures that stand the test of time while accommodating the needs of users. As we continue to grow and develop our urban environments, the importance of considering normally loaded conditions cannot be overstated. It is a critical aspect of creating safe and sustainable structures that enhance our quality of life.
在工程领域,特别是在结构和机械设计中,理解“正常载荷条件”这一概念至关重要。这个术语指的是结构或组件在其正常使用过程中所经历的标准或预期载荷。例如,考虑一座桥:它被设计用来支撑车辆、行人以及风雨等环境因素的重量,处于“正常载荷条件”下。工程师必须考虑这些载荷,以确保安全和功能性。在设计任何结构时,工程师首先评估“正常载荷条件”。他们分析各种因素,如所用材料、结构的预期用途和环境影响。这种分析帮助他们确定结构在不发生故障的情况下能够承受的最大载荷。例如,一栋建筑必须能够支撑不仅是自身材料的重量,还有居住者、家具和设备在“正常载荷条件”下的重量。为了进一步说明,让我们以一栋高层建筑为例。设计团队将通过估计在任何给定时间内占用建筑的平均人数,以及家具和其他元素的重量,来计算“正常载荷条件”。这个计算是至关重要的,因为它为材料选择、结构加固和整体设计提供了信息。如果这栋建筑将用于办公,工程师可能会假设与住宅建筑不同的载荷情况,因为住宅建筑的载荷可能会有很大变化。此外,“正常载荷条件”并不是静态的;它可以根据使用模式和外部因素而变化。例如,在假期期间,商业空间可能会经历访客的激增,暂时改变其载荷条件。工程师必须预测这些变化,并设计能够适应“正常载荷条件”和意外载荷的结构,确保安全和稳定。测试在验证关于“正常载荷条件”的假设中发挥着重要作用。工程师通常进行模拟和物理测试,以观察结构在预期载荷下的表现。这些测试有助于识别潜在的弱点,并允许在施工完成前进行调整。例如,如果一座桥在“正常载荷条件”下测试时显示出压力迹象,工程师可以在其开放交通之前对其进行加固。总之,“正常载荷条件”的概念在工程和建筑学中是基础性的。它确保结构安全、可靠,并适合其预期用途。通过理解和应用这一概念,工程师可以设计出经得起时间考验的建筑、桥梁和其他基础设施,同时满足用户的需求。随着我们继续发展和建设城市环境,考虑“正常载荷条件”的重要性不可低估。这是创造安全和可持续结构、提升我们生活质量的关键方面。
相关单词
