ground stability

简明释义

地基稳定性

英英释义

例句

1.The engineers conducted a thorough analysis to assess the ground stability 地面稳定性 before beginning construction.

在开始施工之前，工程师进行了全面的分析，以评估地面稳定性。

2.The construction company used advanced technology to measure ground stability 地面稳定性 in real-time.

建筑公司使用先进技术实时测量地面稳定性。

3.Monitoring ground stability 地面稳定性 is crucial in areas prone to landslides.

在易发滑坡的地区，监测地面稳定性至关重要。

4.Before building a new road, the team evaluated the ground stability 地面稳定性 to prevent future issues.

在修建新道路之前，团队评估了地面稳定性以防止未来的问题。

5.Heavy rainfall can significantly affect the ground stability 地面稳定性 of a construction site.

大雨会显著影响施工现场的地面稳定性。

作文

Ground stability is a crucial factor in various fields, particularly in construction and civil engineering. It refers to the ability of the ground to support structures without undergoing significant deformation or failure. Ensuring ground stability (地面稳定性) is vital for the safety and longevity of buildings, roads, and other infrastructures. In this essay, we will explore the importance of ground stability (地面稳定性), the methods used to assess it, and the consequences of neglecting this critical aspect of engineering.Firstly, understanding the significance of ground stability (地面稳定性) is essential for engineers and architects. When designing a structure, professionals must consider the type of soil and its characteristics. Different soils have varying capacities to bear loads; for instance, clayey soils may expand when wet, while sandy soils can shift easily. Therefore, a thorough analysis of the ground conditions is necessary to determine the appropriate foundation type that will ensure the ground stability (地面稳定性) required for the intended structure.Moreover, there are several methods to assess ground stability (地面稳定性). Geotechnical investigations often involve drilling boreholes to collect soil samples, conducting laboratory tests to evaluate soil properties, and performing in-situ tests like Standard Penetration Tests (SPT) or Cone Penetration Tests (CPT). These assessments help engineers understand the load-bearing capacity of the soil and identify any potential issues that could affect ground stability (地面稳定性).In addition to initial assessments, monitoring ground stability (地面稳定性) during and after construction is equally important. Techniques such as inclinometers and piezometers can be installed to track any changes in soil movement or water levels, which could signal a risk to the stability of the structure. Regular monitoring allows for timely interventions if any issues arise, thereby safeguarding the integrity of the infrastructure.Neglecting ground stability (地面稳定性) can lead to disastrous consequences. For example, buildings constructed on unstable ground may experience settling, cracking, or even catastrophic failure. Historical events, such as landslides or sinkholes, highlight the importance of addressing ground stability (地面稳定性) in planning and construction. The collapse of the Hyatt Regency walkway in 1981 is a notable example where improper assessment of the ground and structural design led to a tragic loss of life.In conclusion, ground stability (地面稳定性) is a fundamental consideration in construction and civil engineering. It involves understanding the properties of the soil, assessing its capacity to support structures, and implementing monitoring techniques to ensure ongoing safety. The repercussions of ignoring ground stability (地面稳定性) can be severe, underscoring the need for rigorous evaluation and adherence to engineering standards. As our cities continue to grow and evolve, prioritizing ground stability (地面稳定性) will remain essential to creating safe and sustainable environments for future generations.

地面稳定性是多个领域中至关重要的因素，尤其是在建筑和土木工程中。它指的是地面在不发生重大变形或失败的情况下支持结构的能力。确保地面稳定性（ground stability）对建筑、道路和其他基础设施的安全性和耐久性至关重要。在这篇文章中，我们将探讨地面稳定性（ground stability）的重要性、评估它的方法，以及忽视这一关键工程方面的后果。首先，理解地面稳定性（ground stability）的重要性对于工程师和建筑师来说至关重要。在设计结构时，专业人员必须考虑土壤的类型及其特征。不同的土壤承载能力各异；例如，粘土土壤可能在潮湿时膨胀，而沙质土壤则容易移动。因此，彻底分析地面条件是确定适当基础类型的必要条件，以确保所需的地面稳定性（ground stability）。此外，还有几种方法可以评估地面稳定性（ground stability）。土工调查通常涉及钻孔以收集土壤样本，进行实验室测试以评估土壤特性，以及执行原位测试，如标准贯入试验（SPT）或锥形贯入试验（CPT）。这些评估帮助工程师了解土壤的承载能力，并识别可能影响地面稳定性（ground stability）的潜在问题。除了初步评估外，在施工期间和之后监测地面稳定性（ground stability）同样重要。可以安装倾斜计和孔隙水压力计等技术来跟踪土壤运动或水位的变化，这可能会对结构的稳定性构成风险。定期监测允许在出现任何问题时及时采取干预措施，从而保护基础设施的完整性。忽视地面稳定性（ground stability）可能导致灾难性的后果。例如，建造在不稳定地面上的建筑物可能会经历沉降、开裂，甚至灾难性失败。历史事件，如滑坡或塌陷，突显了在规划和建设中解决地面稳定性（ground stability）问题的重要性。1981年海特公园人行道倒塌就是一个显著的例子，错误评估地面和结构设计导致了悲惨的生命损失。总之，地面稳定性（ground stability）是建筑和土木工程中的基本考虑因素。它涉及理解土壤的特性、评估其支持结构的能力，以及实施监测技术以确保持续安全。忽视地面稳定性（ground stability）的后果可能是严重的，这强调了严格评估和遵守工程标准的必要性。随着我们的城市不断发展，优先考虑地面稳定性（ground stability）将继续对为未来几代人创造安全和可持续的环境至关重要。