working load

简明释义

工缀载

英英释义

例句

1.If you overload the system beyond its working load (额定工作负荷), it may lead to equipment failure.

如果超出系统的working load (额定工作负荷)，可能会导致设备故障。

2.The crane can lift a maximum of 10 tons, but we should never exceed its working load (额定工作负荷) of 8 tons.

起重机的最大起重能力为10吨，但我们绝不能超过其working load (额定工作负荷) 8吨。

3.Always check the working load (额定工作负荷) limits before using any lifting equipment.

在使用任何起重设备之前，请务必检查其working load (额定工作负荷) 限制。

4.The working load (额定工作负荷) of this cable is crucial for ensuring safety during operations.

这条电缆的working load (额定工作负荷) 对于确保操作安全至关重要。

5.Understanding the working load (额定工作负荷) is essential for safe rigging practices.

理解working load (额定工作负荷) 对于安全的索具实践至关重要。

作文

Understanding the concept of working load is crucial in various fields, particularly in engineering and construction. The term working load refers to the maximum load that a structure or component is designed to bear during its normal use. This concept ensures safety and efficiency in the design and operation of structures, machinery, and equipment. In this essay, we will explore the importance of working load, how it is calculated, and its implications in real-world applications.Firstly, the significance of working load cannot be overstated. Engineers and architects must consider this factor when designing buildings, bridges, and other infrastructures. For instance, a bridge must support not only its own weight but also the weight of vehicles, pedestrians, and environmental factors such as wind or snow. By calculating the working load, engineers can ensure that the structure will remain safe and functional under expected conditions. Failure to account for the working load could lead to catastrophic failures, resulting in loss of life and property.To calculate the working load, engineers take into account various factors, including the materials used, the geometry of the structure, and the intended use. For example, in the case of a crane, the working load would be determined by the maximum weight it can lift safely without risking structural integrity. This calculation involves understanding the mechanical properties of the materials involved, such as tensile strength and fatigue limits. Additionally, safety factors are often applied to the working load to account for unexpected loads or misuse.In practical applications, the working load plays a vital role in the maintenance and operation of machinery. For instance, in the shipping industry, cargo ships have specific working load limits that dictate how much weight they can carry. Exceeding this limit can lead to instability and potential capsizing. Therefore, understanding the working load is essential for operators to ensure safe transportation of goods across oceans.Moreover, the concept of working load extends beyond physical structures and machinery. In the realm of project management, teams must consider the working load of their members to avoid burnout and ensure productivity. Each team member has a maximum capacity for work, and exceeding this can lead to decreased performance and morale. By managing the working load effectively, leaders can optimize team efficiency and maintain a healthy work environment.In conclusion, the concept of working load is integral to various disciplines, ensuring safety, efficiency, and productivity. Whether in engineering, construction, or project management, understanding and calculating the working load is essential for success. As we continue to advance in technology and design, the importance of this concept will only grow, highlighting the need for thorough training and awareness in its application. Ultimately, grasping the implications of working load can lead to better decision-making and safer outcomes in both professional and everyday contexts.

理解工作负荷的概念在各个领域中都至关重要，特别是在工程和建筑领域。术语工作负荷指的是结构或组件在正常使用过程中设计承受的最大负荷。这个概念确保了结构、机械和设备的设计与操作的安全性和效率。在本文中，我们将探讨工作负荷的重要性、如何计算以及其在现实应用中的影响。首先，工作负荷的重要性不容小觑。工程师和建筑师在设计建筑物、桥梁和其他基础设施时必须考虑这一因素。例如，一座桥不仅必须承受自身的重量，还必须承受车辆、行人及风雪等环境因素的重量。通过计算工作负荷，工程师可以确保结构在预期条件下保持安全和功能。如果未能考虑工作负荷，可能会导致灾难性的失败，造成生命和财产的损失。要计算工作负荷，工程师需要考虑多种因素，包括所用材料、结构的几何形状和预期用途。例如，在起重机的情况下，工作负荷将根据它能安全提升的最大重量来确定，而不危及结构完整性。这一计算涉及对所涉及材料的机械性能的理解，如抗拉强度和疲劳极限。此外，通常会对工作负荷应用安全系数，以应对意外负荷或误用。在实际应用中，工作负荷在机械的维护和操作中发挥着至关重要的作用。例如，在航运行业，货船有特定的工作负荷限制，决定了它们可以安全运输的重量。超过这一限制可能导致不稳定和潜在的倾覆。因此，理解工作负荷对操作员确保安全运输货物跨越海洋至关重要。此外，工作负荷的概念不仅限于物理结构和机械。在项目管理领域，团队必须考虑其成员的工作负荷，以避免过度疲劳并确保生产力。每个团队成员都有最大工作能力，超过这一限度可能导致表现和士气下降。通过有效管理工作负荷，领导者可以优化团队效率并维持健康的工作环境。总之，工作负荷的概念在各个学科中都是不可或缺的，确保安全、高效和生产力。无论是在工程、建筑还是项目管理中，理解和计算工作负荷对于成功至关重要。随着我们在技术和设计上的不断进步，这一概念的重要性只会增加，突显出在其应用中进行全面培训和意识的必要性。最终，掌握工作负荷的影响可以促使更好的决策和更安全的结果，无论是在专业领域还是日常生活中。