load-carrying capacity

简明释义

负载能力起重量

英英释义

例句

1.A thorough analysis of the load-carrying capacity is essential for safety in building design.

对承载能力的彻底分析对于建筑设计的安全至关重要。

2.Before construction, engineers must calculate the load-carrying capacity of the soil.

在施工之前，工程师必须计算土壤的承载能力。

3.The truck's load-carrying capacity is limited to 10 tons to prevent overloading.

这辆卡车的承载能力限制为10吨，以防止超载。

4.The warehouse's shelves were reinforced to increase their load-carrying capacity.

仓库的货架经过加固，以增加其承载能力。

5.The bridge was designed to have a high load-carrying capacity, ensuring it can support heavy vehicles.

这座桥的设计具有高承载能力，确保能够支撑重型车辆。

作文

The concept of load-carrying capacity is crucial in various fields, especially in engineering and construction. It refers to the maximum weight or load that a structure or material can safely support without risking failure or collapse. Understanding this term is essential for ensuring safety and reliability in any project involving heavy materials or structures.In construction, for example, engineers must calculate the load-carrying capacity of beams, columns, and foundations to ensure they can handle the weight of buildings, equipment, and occupants. If these calculations are inaccurate, the consequences can be dire, leading to structural failures that might endanger lives and result in significant financial losses. Therefore, engineers often conduct tests and simulations to determine the load-carrying capacity of different materials under various conditions.Moreover, the load-carrying capacity is not just a static measure; it can change over time due to factors such as wear and tear, environmental conditions, and changes in usage. For instance, a bridge designed to carry a certain amount of traffic may experience reduced load-carrying capacity as it ages or if it is subjected to heavier loads than initially intended. Regular inspections and maintenance are critical to ensure that structures maintain their load-carrying capacity throughout their lifespan.In addition to engineering, the concept of load-carrying capacity also applies in other areas, such as logistics and transportation. For example, when designing vehicles like trucks or cranes, manufacturers must consider the load-carrying capacity to ensure that they can transport goods safely and efficiently. Exceeding this capacity can lead to accidents, damage to the vehicle, and potential legal ramifications.Furthermore, understanding the load-carrying capacity is essential in everyday life as well. For instance, when using elevators, it is important to adhere to the specified load-carrying capacity to prevent malfunctions or accidents. Similarly, when loading shelves or storage units, one should be mindful of their load-carrying capacity to avoid collapses that could cause injury or damage.In conclusion, the term load-carrying capacity encompasses a fundamental principle that is vital across multiple disciplines. Whether in construction, transportation, or daily activities, understanding and respecting the load-carrying capacity of structures and materials can significantly enhance safety and performance. As we continue to innovate and develop new technologies, the importance of accurately assessing load-carrying capacity will remain paramount, ensuring that our infrastructures can support the demands placed upon them without compromising safety and integrity.

“承载能力”的概念在各个领域都至关重要，尤其是在工程和建筑方面。它指的是一个结构或材料在不危及其安全性或崩溃风险的情况下，可以安全支撑的最大重量或负荷。理解这个术语对于确保任何涉及重型材料或结构的项目的安全性和可靠性至关重要。例如，在建筑中，工程师必须计算梁、柱和基础的承载能力，以确保它们能够处理建筑物、设备和居住者的重量。如果这些计算不准确，后果可能会很严重，导致结构失败，可能危及生命并造成重大经济损失。因此，工程师通常会进行测试和模拟，以确定不同材料在各种条件下的承载能力。此外，承载能力不仅是一个静态的度量；由于磨损、环境条件和使用变化等因素，它可能随时间而变化。例如，一座设计为承载一定交通量的桥梁，随着时间的推移或如果承受比最初设定的更重的负载，可能会经历承载能力的降低。定期检查和维护对于确保结构在其生命周期内保持其承载能力至关重要。除了工程，承载能力的概念也适用于其他领域，例如物流和运输。例如，在设计卡车或起重机等车辆时，制造商必须考虑承载能力，以确保它们可以安全高效地运输货物。超出这一能力可能导致事故、车辆损坏以及潜在的法律后果。此外，理解承载能力在日常生活中同样重要。例如，在使用电梯时，遵守规定的承载能力是重要的，以防止故障或事故。同样，在装载货架或储物单元时，也应注意它们的承载能力，以避免可能导致伤害或损坏的倒塌。总之，术语承载能力涵盖了一个基本原则，这在多个学科中至关重要。无论是在建筑、运输还是日常活动中，理解和尊重结构和材料的承载能力可以显著增强安全性和性能。随着我们继续创新和开发新技术，准确评估承载能力的重要性将始终是首要任务，以确保我们的基础设施能够支持施加于它们的需求，而不危及安全性和完整性。