mean load

简明释义

平均负荷

英英释义

例句

1.Understanding the mean load on electrical circuits helps prevent overloads.

了解电路上的均值载荷有助于防止过载。

2.To optimize performance, we need to analyze the mean load of the server during peak hours.

为了优化性能，我们需要分析高峰时段服务器的均值载荷。

3.The engineer calculated the mean load to ensure the bridge could support heavy traffic.

工程师计算了均值载荷以确保桥梁能够承受重型交通。

4.The mean load of the machinery was found to be higher than expected during the test run.

在测试运行中，机器的均值载荷被发现高于预期。

5.The report detailed the mean load of each vehicle type used in logistics.

报告详细说明了物流中每种车辆类型的均值载荷。

作文

In the field of engineering and physics, understanding the concept of load is crucial for designing structures and systems that can withstand various forces. One important term that often comes up in this context is mean load, which refers to the average load experienced by a structure over a specific period of time. The mean load (平均载荷) is not only significant for ensuring safety but also for optimizing performance and efficiency in engineering applications.When engineers design buildings, bridges, or any other structures, they must consider the loads these structures will encounter during their lifespan. These loads can vary significantly due to factors such as weather conditions, usage patterns, and material properties. The mean load (平均载荷) provides a baseline for understanding what the average load will be, allowing engineers to make informed decisions about materials and designs.For example, in the case of a bridge, the mean load (平均载荷) would take into account the weight of vehicles, pedestrians, and environmental forces like wind and snow. By calculating the mean load (平均载荷), engineers can ensure that the bridge is designed to handle typical traffic while also being robust enough to withstand unexpected surges in load.Moreover, understanding the mean load (平均载荷) is essential for maintenance and safety assessments. Regular monitoring of a structure’s load can reveal changes over time, indicating potential issues that may arise. If the actual loads consistently exceed the mean load (平均载荷) calculated during the design phase, it may signal the need for repairs or reinforcements to prevent structural failure.In addition to static loads, the mean load (平均载荷) can also apply to dynamic loads, which change over time. For instance, in mechanical systems, the mean load (平均载荷) can help in assessing the wear and tear on components. Machinery that operates under varying loads needs to be designed with the mean load (平均载荷) in mind to ensure longevity and reliability. Engineers often use simulations and historical data to estimate the mean load (平均载荷) that a machine will experience, allowing for better design choices.Furthermore, the concept of mean load (平均载荷) is also relevant in the context of energy consumption. In electrical engineering, understanding the mean load (平均载荷) on power systems helps in planning for capacity and ensuring that supply meets demand. Utilities often analyze the mean load (平均载荷) over different times of the day and seasons to optimize their energy distribution strategies.In conclusion, the term mean load (平均载荷) encompasses a critical aspect of engineering that influences the design, safety, and efficiency of structures and systems. By accurately determining the mean load (平均载荷), engineers can create solutions that are not only functional but also safe and sustainable. This understanding is vital across various fields, from civil engineering to mechanical systems and electrical grids, highlighting the importance of load analysis in modern engineering practices.

在工程和物理学领域，理解载荷的概念对于设计能够承受各种力的结构和系统至关重要。一个常常出现的重要术语是mean load，它指的是在特定时间段内结构所经历的平均载荷。mean load（平均载荷）不仅对确保安全具有重要意义，而且对优化工程应用中的性能和效率也至关重要。当工程师设计建筑物、桥梁或其他任何结构时，他们必须考虑这些结构在其生命周期内将遇到的载荷。这些载荷可能因天气条件、使用模式和材料特性等因素而显著变化。mean load（平均载荷）提供了一个基准，用于了解平均载荷，从而使工程师能够就材料和设计做出明智的决策。例如，在桥梁的情况下，mean load（平均载荷）将考虑车辆、行人以及风雪等环境力量的重量。通过计算mean load（平均载荷），工程师可以确保桥梁的设计能够处理典型交通，同时也足够坚固以承受意外的载荷激增。此外，理解mean load（平均载荷）对于维护和安全评估至关重要。定期监测结构的载荷可以揭示随时间变化的情况，表明可能出现的问题。如果实际载荷持续超过在设计阶段计算的mean load（平均载荷），这可能意味着需要进行维修或加固，以防止结构失效。除了静态载荷，mean load（平均载荷）也适用于动态载荷，这些载荷会随时间变化。例如，在机械系统中，mean load（平均载荷）可以帮助评估部件的磨损。处于不同载荷下运行的机械需要考虑mean load（平均载荷）来确保其使用寿命和可靠性。工程师通常使用模拟和历史数据来估算机器将经历的mean load（平均载荷），从而允许更好的设计选择。此外，mean load（平均载荷）的概念在能源消费的背景下也很相关。在电气工程中，了解电力系统上的mean load（平均载荷）有助于容量规划，确保供应满足需求。公用事业通常分析不同时间段和季节的mean load（平均载荷），以优化其能源分配策略。总之，术语mean load（平均载荷）涵盖了影响结构和系统设计、安全性和效率的工程关键方面。通过准确确定mean load（平均载荷），工程师可以创造出不仅功能齐全而且安全、可持续的解决方案。这种理解在各个领域都是至关重要的，从土木工程到机械系统再到电网，突出了载荷分析在现代工程实践中的重要性。