real load

简明释义

有效负载

英英释义

The actual amount of weight or burden that is being carried or supported by a structure, vehicle, or system during operation.

在操作过程中,结构、车辆或系统所承载或支持的实际重量或负担。

In electrical engineering, it refers to the real power consumed by a load, as opposed to reactive power, which does not perform any useful work.

在电气工程中,它指的是负载消耗的实际功率,与不执行任何有用工作的无功功率相对。

例句

1.The construction team adjusted their plans after realizing the real load of the soil was higher than expected.

建筑团队在意识到土壤的实际负载高于预期后调整了他们的计划。

2.To optimize performance, we must account for the real load during peak hours.

为了优化性能,我们必须考虑高峰时段的实际负载

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

工程师计算了实际负载以确保桥梁能够承受重型交通。

4.In this experiment, we need to measure the real load applied to the material.

在这个实验中,我们需要测量施加在材料上的实际负载

5.Understanding the real load on the electrical system helps prevent overloads.

了解电气系统的实际负载有助于防止过载。

作文

In the world of engineering and construction, understanding the concept of real load is crucial for ensuring the safety and efficiency of structures. The term real load refers to the actual weight or force that a structure must support during its lifetime. This includes not only the static loads, such as the weight of the building materials themselves, but also dynamic loads that can occur due to environmental factors like wind, snow, and earthquakes. Engineers must accurately calculate the real load to design buildings that can withstand these forces without failure.When designing a new building, engineers begin by assessing the intended use of the structure. For instance, a residential building will have different real load requirements compared to a commercial building. A residential home may primarily need to support the weight of its inhabitants and furniture, while a commercial space might need to accommodate heavy equipment and larger crowds. Therefore, understanding the specific real load helps in determining the appropriate materials and structural components.Moreover, the real load is not static; it can change over time. For example, a building designed for a family of four may later be occupied by a family of six, increasing the real load. Additionally, renovations or changes in usage can also affect the load. Engineers must consider these variables when calculating the real load to ensure that the structure remains safe throughout its lifespan.One of the key reasons why accurately understanding the real load is essential is safety. If a structure is not designed to handle the real load, it can lead to catastrophic failures, endangering lives and property. For instance, there have been cases where bridges have collapsed because they were not built to support the actual traffic loads they experienced. Such disasters highlight the importance of precise calculations and adherence to engineering standards.In addition to safety, the real load also impacts the economic aspect of construction. Over-engineering a structure to support a higher real load than necessary can lead to increased costs due to the use of more materials and labor. Conversely, underestimating the real load can result in costly repairs or even complete rebuilding if the structure fails. Therefore, finding the right balance in load calculations is vital for both safety and cost-effectiveness.In conclusion, the concept of real load is fundamental in the field of engineering and construction. It encompasses the actual forces that a structure will encounter, influencing design choices, safety measures, and economic considerations. By thoroughly understanding the real load, engineers can create buildings that are not only safe and durable but also efficient and cost-effective. As our cities continue to grow and evolve, the importance of accurately assessing the real load will remain a cornerstone of successful engineering practices.

在工程和建筑的世界中,理解“real load”这一概念对于确保结构的安全性和效率至关重要。术语“real load”指的是结构在其生命周期内必须承受的实际重量或力量。这不仅包括静态荷载,例如建筑材料自身的重量,还包括由于环境因素如风、雪和地震等引起的动态荷载。工程师必须准确计算“real load”,以设计能够承受这些力量而不发生故障的建筑。在设计新建筑时,工程师首先评估结构的预期用途。例如,住宅建筑的“real load”要求与商业建筑不同。住宅可能主要需要支持居民和家具的重量,而商业空间则可能需要容纳重型设备和更大的人群。因此,了解具体的“real load”有助于确定适当的材料和结构组件。此外,“real load”并不是静态的;它可以随时间变化。例如,设计用于四口之家的建筑可能后来会被六口之家占用,从而增加“real load”。此外,翻新或使用方式的变化也会影响荷载。工程师在计算“real load”时必须考虑这些变量,以确保结构在其生命周期内保持安全。准确理解“real load”的一个关键原因是安全性。如果结构没有设计成能够承受实际的“real load”,可能会导致灾难性的故障,危及生命和财产。例如,有些桥梁因未能承受实际交通荷载而倒塌。这类灾难突显了精确计算和遵循工程标准的重要性。除了安全性外,“real load”还影响建筑的经济方面。为了支持比必要的更高的“real load”,过度设计结构可能导致由于使用更多材料和劳动力而增加成本。相反,低估“real load”可能导致昂贵的维修或甚至完全重建,因为结构失败。因此,在荷载计算中找到合适的平衡对于安全和成本效益至关重要。总之,“real load”的概念在工程和建筑领域中是基础性的。它涵盖了结构将遇到的实际力量,影响设计选择、安全措施和经济考虑。通过充分理解“real load”,工程师能够创建不仅安全且耐用,而且高效且具有成本效益的建筑。随着我们的城市不断发展和演变,准确评估“real load”的重要性将始终是成功工程实践的基石。