safe working strength

简明释义

安全工作强度

英英释义

例句

1.The engineer calculated the safe working strength of the bridge before approving its design.

工程师在批准桥梁设计之前计算了它的安全工作强度。

2.Before lifting heavy loads, workers must be aware of the safe working strength of their equipment.

在搬运重物之前，工人必须了解他们设备的安全工作强度。

3.The safety manual provides guidelines on the safe working strength of various tools.

安全手册提供了各种工具的安全工作强度指南。

4.It's crucial to know the safe working strength of the materials used in construction.

了解建筑中使用材料的安全工作强度至关重要。

5.To ensure safety, always operate machinery within its safe working strength limits.

为确保安全，始终在机械的安全工作强度限制内操作。

作文

In the field of engineering and construction, safety is paramount. One of the key concepts that professionals must understand is the term safe working strength. This refers to the maximum load or stress that a material or structure can withstand without experiencing failure or significant deformation under normal working conditions. Understanding safe working strength is crucial for ensuring the integrity and longevity of structures, as well as for protecting the safety of workers and the public. When designing any structure, engineers must consider various factors that influence safe working strength. These include the properties of the materials being used, environmental conditions, and the intended use of the structure. For instance, materials like steel and concrete have specific strength characteristics that dictate how much weight they can support. Engineers often refer to standards and guidelines that outline the safe working strength for different materials, ensuring that their designs are compliant with safety regulations.Moreover, the concept of safe working strength is not static; it can change based on several factors. For example, if a structure is exposed to extreme weather conditions, such as heavy winds or earthquakes, its safe working strength may be compromised. Therefore, engineers must conduct thorough analyses and simulations to predict how these external factors will impact the overall strength and safety of the structure.Another important aspect of safe working strength is the factor of safety, which is a design principle that provides a margin of safety beyond the calculated loads. By incorporating a factor of safety into their designs, engineers ensure that even if unexpected loads occur, the structure will remain safe and functional. This practice is particularly important in critical applications, such as bridges, buildings, and dams, where failure could lead to catastrophic consequences.In addition to engineering applications, the concept of safe working strength also extends to various industries, including manufacturing and transportation. For example, when designing machinery or equipment, manufacturers must determine the safe working strength of components to prevent malfunctions that could endanger workers. Similarly, in the transportation sector, vehicles must be designed with a safe working strength that accounts for the stresses they will encounter during operation.In conclusion, understanding safe working strength is essential for anyone involved in engineering, construction, or related fields. It ensures that structures and materials can safely withstand the loads they will encounter during their lifespan. By adhering to established guidelines and considering factors such as environmental conditions and the factor of safety, professionals can design safe and reliable systems that protect both people and investments. The importance of safe working strength cannot be overstated, as it is a fundamental principle that underpins the safety and functionality of our built environment.

在工程和建筑领域，安全是至关重要的。专业人员必须理解的一个关键概念是术语安全工作强度。这指的是材料或结构在正常工作条件下能够承受而不发生失败或显著变形的最大负载或应力。理解安全工作强度对确保结构的完整性和耐久性，以及保护工人和公众的安全至关重要。在设计任何结构时，工程师必须考虑影响安全工作强度的各种因素。这些因素包括所用材料的特性、环境条件和结构的预期用途。例如，钢材和混凝土等材料具有特定的强度特性，这决定了它们能支持多少重量。工程师通常会参考标准和指南，概述不同材料的安全工作强度，以确保他们的设计符合安全规定。此外，安全工作强度的概念并不是静态的；它可以根据多个因素而变化。例如，如果某个结构暴露于极端天气条件下，如强风或地震，其安全工作强度可能会受到影响。因此，工程师必须进行彻底的分析和模拟，以预测这些外部因素将如何影响结构的整体强度和安全性。安全工作强度的另一个重要方面是安全系数，这是一个设计原则，提供超出计算负载的安全裕度。通过在设计中加入安全系数，工程师确保即使发生意外负载，结构仍将保持安全和功能。这种做法在关键应用中尤为重要，例如桥梁、建筑物和水坝，因其故障可能导致灾难性后果。除了工程应用，安全工作强度的概念还延伸到制造和运输等各个行业。例如，在设计机械或设备时，制造商必须确定组件的安全工作强度以防止可能危及工人的故障。同样，在运输部门，车辆的设计必须考虑其在运行过程中将遇到的应力，以满足安全工作强度的要求。总之，理解安全工作强度对任何参与工程、建筑或相关领域的人来说都是必不可少的。它确保结构和材料能够安全承受其生命周期内将遇到的负载。通过遵循既定的指南并考虑环境条件和安全系数等因素，专业人员可以设计出安全可靠的系统，保护人们和投资。安全工作强度的重要性不容小觑，因为它是支撑我们建成环境的安全和功能的基本原则。