height of heave

简明释义

升沉幅度

英英释义

例句

1.Monitoring the height of heave is essential for ensuring the stability of the building foundation.

监测隆起高度对于确保建筑基础的稳定性至关重要。

2.To prevent damage, we need to monitor the height of heave regularly after heavy snowfall.

为了防止损坏，我们需要在大雪过后定期监测隆起高度。

3.The engineer calculated the height of heave to determine how much the ground would rise during the construction process.

工程师计算了隆起高度以确定在施工过程中地面将上升多少。

4.During the excavation, the crew observed an increase in the height of heave due to heavy rainfall.

在挖掘过程中，工作人员观察到由于大雨导致隆起高度增加。

5.The geologist reported that the height of heave in this area could indicate potential seismic activity.

地质学家报告称，该地区的隆起高度可能表明潜在的地震活动。

作文

In the realm of engineering and construction, understanding various terminologies is crucial for effective communication and project execution. One such term that often arises in the context of geotechnical engineering is the height of heave, which refers to the vertical displacement of soil caused by factors such as moisture changes, freeze-thaw cycles, or other geological activities. This phenomenon can significantly impact the stability of structures built on or within affected soils. Therefore, a comprehensive grasp of the height of heave is essential for engineers when designing foundations and assessing the potential risks associated with soil movement.The height of heave can vary greatly depending on the type of soil, the environmental conditions, and the specific geological context. For instance, clay soils are particularly susceptible to heaving due to their ability to absorb water and expand when wet. Conversely, sandy soils tend to have lower heave potential because they drain quickly and do not retain moisture as effectively. Understanding these differences allows engineers to make informed decisions about site selection and foundation design.Moreover, the height of heave can have serious implications for existing structures. Buildings that are constructed without considering the potential for soil movement may experience structural damage over time. Cracks in walls, uneven floors, and compromised foundations are just a few examples of issues that can arise from inadequate attention to heave. Therefore, it is imperative for construction professionals to conduct thorough soil investigations and monitor moisture levels to predict and mitigate the effects of heave.To effectively measure the height of heave, engineers often employ various techniques such as ground penetrating radar, soil sampling, and monitoring equipment that tracks changes in soil volume over time. These methods provide valuable data that can inform design decisions and help in the development of mitigation strategies. For instance, if a significant height of heave is anticipated, engineers might recommend using deep foundations or flexible materials that can accommodate movement without compromising structural integrity.In conclusion, the concept of height of heave is a critical consideration in the fields of civil and geotechnical engineering. It highlights the importance of understanding soil behavior and its implications for construction projects. By recognizing the factors that contribute to heave and implementing appropriate measures, engineers can enhance the safety and longevity of structures, ultimately leading to more resilient communities. As the construction industry continues to evolve, ongoing research and education regarding terms like height of heave will remain vital for professionals tasked with building our infrastructure responsibly and sustainably.

在工程和建筑领域，理解各种术语对有效沟通和项目执行至关重要。其中一个常常出现在岩土工程背景下的术语是隆起高度，它指的是由于湿度变化、冻融循环或其他地质活动等因素引起的土壤垂直位移。这个现象可能会显著影响在受影响土壤上或内部建造的结构的稳定性。因此，全面理解隆起高度对工程师在设计基础和评估与土壤运动相关的潜在风险时至关重要。隆起高度可能因土壤类型、环境条件和特定地质背景而大相径庭。例如，粘土土壤由于其能够吸收水分并在潮湿时膨胀，特别容易发生隆起。相反，沙土因排水迅速且不如粘土有效保留水分，因此隆起潜力较低。理解这些差异使工程师能够在选址和基础设计中做出明智的决策。此外，隆起高度可能对现有结构产生严重影响。未考虑土壤运动潜力而建造的建筑可能会随着时间的推移而遭受结构损坏。墙壁开裂、不平的地板和基础受损只是由于未能关注隆起而可能出现的一些问题。因此，建筑专业人员必须进行彻底的土壤调查，并监测湿度水平，以预测和减轻隆起的影响。为了有效测量隆起高度，工程师通常采用各种技术，如地下雷达、土壤取样和监测设备，这些设备跟踪土壤体积随时间的变化。这些方法提供了宝贵的数据，可以为设计决策提供信息，并帮助制定缓解策略。例如，如果预计会出现显著的隆起高度，工程师可能建议使用深基础或可以适应运动而不妨碍结构完整性的柔性材料。总之，隆起高度的概念在土木和岩土工程领域是一个关键考虑因素。它突显了理解土壤行为及其对建筑项目影响的重要性。通过认识导致隆起的因素并实施适当的措施，工程师可以增强结构的安全性和耐久性，最终促进更具韧性的社区的发展。随着建筑行业的不断发展，关于隆起高度等术语的持续研究和教育将对负责负责任和可持续建设基础设施的专业人士至关重要。