weight carrying capacity

简明释义

载重量起重量

英英释义

例句

1.The truck's weight carrying capacity is 10,000 pounds, making it suitable for heavy loads.

这辆卡车的承载重量为10,000磅，适合运输重物。

2.Before loading the cargo, we need to check the weight carrying capacity of the elevator.

在装载货物之前，我们需要检查电梯的承载能力。

3.The bridge was designed with a weight carrying capacity of 20 tons to accommodate large vehicles.

这座桥的设计承载能力为20吨，以便容纳大型车辆。

4.Each shelf in the warehouse has a specific weight carrying capacity to prevent collapse.

仓库中的每个货架都有特定的承载能力，以防止坍塌。

5.When purchasing a new bicycle, consider its weight carrying capacity to ensure it meets your needs.

在购买新自行车时，请考虑其承载能力以确保满足您的需求。

作文

Understanding the concept of weight carrying capacity is essential in various fields, including engineering, transportation, and environmental science. The term refers to the maximum load that a structure or vehicle can safely support without risking failure or damage. This concept is crucial when designing bridges, buildings, and even vehicles, as it ensures safety and functionality for everyday use.In engineering, the weight carrying capacity of materials is a fundamental consideration. For instance, when constructing a bridge, engineers must calculate how much weight the bridge can hold without collapsing. This involves analyzing the materials used, the design of the structure, and the expected traffic loads. If a bridge has a low weight carrying capacity, it may not be suitable for heavy trucks, which could lead to disastrous consequences if the bridge fails under pressure.Transportation also heavily relies on the understanding of weight carrying capacity. Vehicles such as trucks, buses, and airplanes have specific limits on how much weight they can carry. Exceeding this limit can result in mechanical failures, accidents, and increased fuel consumption. For example, a delivery truck with a weight carrying capacity of 10,000 pounds should not carry more than that amount. Doing so not only jeopardizes the safety of the driver but also poses risks to other road users.Additionally, the weight carrying capacity of natural resources plays a significant role in environmental science. For instance, the soil's ability to support plant life depends on its weight carrying capacity. If the soil is too compacted or overburdened with heavy machinery, it may not be able to support vegetation, leading to erosion and loss of biodiversity. Understanding these limits is critical for sustainable farming practices and land management.Moreover, the weight carrying capacity is also relevant in everyday situations. When moving furniture or heavy items, individuals must consider the weight carrying capacity of the stairs or elevators they are using. Ignoring these limits can lead to accidents, injuries, or damage to property. Therefore, being aware of the weight carrying capacity in daily life helps prevent mishaps and promotes safety.In conclusion, the concept of weight carrying capacity is vital across various sectors, from engineering to environmental science and everyday life. It ensures that structures and vehicles function safely and effectively while promoting sustainability. By understanding and respecting the weight carrying capacity of different materials and environments, we can make informed decisions that enhance safety and efficiency in our lives. As we continue to develop new technologies and designs, the importance of this concept will remain a cornerstone of safe and responsible practices in our society.

理解承重能力的概念在工程、运输和环境科学等多个领域都是至关重要的。这个术语指的是一个结构或车辆在不冒险发生故障或损坏的情况下，可以安全支持的最大负载。当设计桥梁、建筑物甚至车辆时，这一概念至关重要，因为它确保了日常使用的安全性和功能性。在工程学中，材料的承重能力是一个基本考虑因素。例如，在建造一座桥梁时，工程师必须计算这座桥能够承受多少重量而不会倒塌。这涉及到对所用材料、结构设计和预期交通负荷的分析。如果一座桥的承重能力较低，它可能不适合重型卡车通行，这可能导致桥梁在压力下失效，从而造成灾难性后果。运输也在很大程度上依赖于对承重能力的理解。卡车、公共汽车和飞机等车辆都有特定的重量限制，超过这个限制可能导致机械故障、事故和燃料消耗增加。例如，一辆承重能力为10000磅的送货卡车不应超载。这样做不仅会危及驾驶员的安全，还会对其他道路使用者构成风险。此外，自然资源的承重能力在环境科学中也扮演着重要角色。例如，土壤支持植物生长的能力取决于其承重能力。如果土壤过于压实或因重型机械而过度负担，它可能无法支持植被，导致侵蚀和生物多样性的丧失。理解这些限制对可持续农业实践和土地管理至关重要。而且，承重能力在日常生活中也是相关的。在搬运家具或重物时，个人必须考虑所使用的楼梯或电梯的承重能力。忽视这些限制可能导致事故、受伤或财产损失。因此，了解日常生活中的承重能力有助于防止意外事件并促进安全。总之，承重能力的概念在各个领域至关重要，从工程到环境科学以及日常生活。它确保结构和车辆安全有效地运行，同时促进可持续性。通过理解和尊重不同材料和环境的承重能力，我们可以做出明智的决策，从而提高我们生活中的安全性和效率。随着我们继续开发新技术和设计，这一概念的重要性将始终是我们社会中安全和负责任实践的基石。