ground pressure

简明释义

地压

英英释义

例句

1.Excessive ground pressure 地面压力 can lead to soil compaction and affect plant growth.

过度的地面压力 ground pressure会导致土壤压实并影响植物生长。

2.The ground pressure 地面压力 of the vehicle was reduced by using wider tires.

通过使用更宽的轮胎，车辆的地面压力 ground pressure得到了降低。

3.Engineers must calculate the ground pressure 地面压力 before laying the foundation of a new building.

工程师在为新建筑奠基之前，必须计算地面压力 ground pressure。

4.Heavy machinery can increase the ground pressure 地面压力 significantly, requiring careful planning.

重型机械可能会显著增加地面压力 ground pressure，需要仔细规划。

5.The construction team monitored the ground pressure 地面压力 to prevent any potential damage to the surrounding structures.

施工团队监测了地面压力 ground pressure以防止对周围建筑物造成潜在损害。

作文

Ground pressure is a term that refers to the pressure exerted by an object on the ground due to its weight and the area over which that weight is distributed. This concept is particularly important in fields such as civil engineering, agriculture, and environmental science. Understanding ground pressure (地面压力) is crucial for designing structures, managing soil compaction, and ensuring the stability of various surfaces. In civil engineering, for instance, when constructing buildings or bridges, engineers must calculate the ground pressure (地面压力) that the structure will impose on the underlying soil. If the pressure is too high for the soil to bear, it can lead to settling or even catastrophic failure of the structure. This is why geotechnical studies are performed before construction begins. Engineers analyze soil properties, including its bearing capacity, to ensure that the ground pressure (地面压力) remains within safe limits.Agriculture also relies heavily on understanding ground pressure (地面压力). Farmers need to be aware of how the weight of their machinery affects the soil. Heavy tractors and other equipment can compact the soil, reducing its ability to retain water and nutrients, which can ultimately affect crop yields. By managing the ground pressure (地面压力) of their equipment—such as using wider tires or lighter machines—farmers can minimize soil compaction and promote healthier crops.In environmental science, the concept of ground pressure (地面压力) is also significant, especially when considering the impact of human activities on natural landscapes. For example, construction projects, road building, and other land developments can increase ground pressure (地面压力) in sensitive ecosystems. This can lead to erosion, habitat destruction, and changes in water drainage patterns. Environmental scientists often assess ground pressure (地面压力) to understand these impacts and develop strategies to mitigate them.Moreover, the effects of ground pressure (地面压力) are not limited to heavy machinery or construction. Natural phenomena, such as the weight of snow on roofs or the accumulation of sediment in riverbeds, also generate ground pressure (地面压力). In winter, for instance, homeowners must monitor the amount of snow on their roofs to prevent structural damage from excessive ground pressure (地面压力). Similarly, engineers must consider the ground pressure (地面压力) caused by sediment build-up in waterways, which can affect flow patterns and lead to flooding.In conclusion, the concept of ground pressure (地面压力) is multifaceted and plays a critical role in various disciplines. From ensuring the safety of buildings to promoting sustainable agricultural practices and protecting the environment, understanding ground pressure (地面压力) is essential. As we continue to develop our infrastructure and manage our natural resources, the implications of ground pressure (地面压力) will remain a key consideration for engineers, farmers, and environmentalists alike.

地面压力是一个术语，指的是由于物体的重量及其分布面积在地面上施加的压力。这个概念在土木工程、农业和环境科学等领域尤为重要。理解地面压力（ground pressure）对设计结构、管理土壤压实以及确保各种表面的稳定性至关重要。例如，在土木工程中，在建造建筑物或桥梁时，工程师必须计算结构对下方土壤施加的地面压力（ground pressure）。如果压力过高，土壤无法承受，就可能导致沉降甚至结构的灾难性失败。这就是为什么在施工开始之前要进行岩土工程研究。工程师分析土壤特性，包括其承载能力，以确保地面压力（ground pressure）保持在安全范围内。农业也非常依赖于对地面压力（ground pressure）的理解。农民需要意识到他们的机械设备的重量如何影响土壤。重型拖拉机和其他设备会压实土壤，减少其保持水分和养分的能力，这最终会影响作物产量。通过管理他们设备的地面压力（ground pressure）——例如使用更宽的轮胎或更轻的机器——农民可以最小化土壤压实，促进健康的作物生长。在环境科学中，地面压力（ground pressure）的概念也非常重要，特别是在考虑人类活动对自然景观的影响时。例如，建设项目、道路建设和其他土地开发活动会增加敏感生态系统的地面压力（ground pressure）。这可能导致侵蚀、栖息地破坏以及水流排放模式的变化。环境科学家通常评估地面压力（ground pressure），以了解这些影响并制定减轻策略。此外，地面压力（ground pressure）的影响不仅限于重型机械或建筑。自然现象，例如雪对屋顶的重量或河床中的沉积物积累，也会产生地面压力（ground pressure）。例如，在冬季，房主必须监测屋顶上的雪量，以防止因过度的地面压力（ground pressure）而造成结构损坏。同样，工程师必须考虑由于沉积物在水道中堆积而引起的地面压力（ground pressure），这可能影响流动模式并导致洪水。总之，地面压力（ground pressure）的概念是多方面的，并在各个学科中发挥着关键作用。从确保建筑物的安全性到促进可持续农业实践和保护环境，理解地面压力（ground pressure）至关重要。随着我们继续发展基础设施和管理自然资源，地面压力（ground pressure）的影响将始终是工程师、农民和环境工作者需要考虑的关键问题。