borehole tiltmeter

简明释义

井下倾斜仪;

英英释义

例句

1.The engineers installed a borehole tiltmeter 钻孔倾斜仪 to monitor ground stability during the construction of the dam.

工程师们安装了一个钻孔倾斜仪来监测大坝建设期间的地面稳定性。

2.Data from the borehole tiltmeter 钻孔倾斜仪 indicated that the soil was shifting under the building foundation.

来自钻孔倾斜仪的数据表明土壤在建筑基础下发生了位移。

3.In mining operations, a borehole tiltmeter 钻孔倾斜仪 helps assess the risk of subsidence.

在采矿作业中，钻孔倾斜仪有助于评估沉降的风险。

4.The borehole tiltmeter 钻孔倾斜仪 readings were crucial for understanding the landslide potential.

对于理解滑坡潜力，钻孔倾斜仪的读数至关重要。

5.Researchers used a borehole tiltmeter 钻孔倾斜仪 to study tectonic movements in the area.

研究人员使用钻孔倾斜仪研究该地区的构造运动。

作文

In the field of geotechnical engineering and geology, monitoring the stability of the ground is crucial for ensuring safety and preventing disasters. One of the most effective tools used for this purpose is the borehole tiltmeter. A borehole tiltmeter (孔隙倾斜计) is an instrument designed to measure the tilt or inclination of the ground at various depths within a borehole. This device provides vital data that can help engineers and geologists understand subsurface movements and changes in soil structure.The functioning of a borehole tiltmeter is based on the principles of gravity and the orientation of the device within the borehole. Typically, it consists of a sensor that detects changes in the angle of the borehole walls as they shift due to geological processes such as settling, landslides, or seismic activity. The data collected by the borehole tiltmeter is then transmitted to a monitoring system where it can be analyzed in real-time.One significant advantage of using a borehole tiltmeter is its ability to provide continuous monitoring over extended periods. Traditional methods of measuring ground movement often involve manual surveys, which can be time-consuming and may miss critical changes that occur between measurements. In contrast, a borehole tiltmeter offers a more efficient solution by allowing for automated data collection, enabling engineers to respond quickly to any potential issues.Moreover, the data obtained from a borehole tiltmeter can be invaluable in various applications, including the construction of tunnels, dams, and other large infrastructure projects. By understanding how the ground is moving, engineers can make informed decisions about design adjustments and reinforcement measures, ultimately leading to safer structures.In addition to construction, borehole tiltmeters are also used in mining operations. As mining activities alter the landscape, monitoring ground stability becomes essential to prevent accidents and ensure the safety of workers. The insights gained from a borehole tiltmeter can help predict potential collapses or shifts in the earth, allowing for timely interventions.Furthermore, environmental studies benefit from the use of borehole tiltmeters as well. For instance, in areas prone to earthquakes, these instruments can provide critical information about ground deformation before and after seismic events. This data can contribute to better understanding earthquake mechanics and improving predictive models.In conclusion, the borehole tiltmeter (孔隙倾斜计) is an essential tool in modern geotechnical engineering and geological research. Its ability to monitor ground tilt continuously and accurately makes it indispensable for ensuring safety in construction, mining, and environmental management. As technology advances, we can expect further enhancements in the capabilities of borehole tiltmeters, leading to even more reliable data and improved safety measures in various fields. The integration of these devices into our monitoring systems represents a significant step forward in our efforts to safeguard both people and infrastructure from the unpredictable forces of nature.

在岩土工程和地质学领域，监测地面的稳定性对于确保安全和防止灾难至关重要。用于此目的的最有效工具之一是孔隙倾斜计。孔隙倾斜计是一种旨在测量钻孔内不同深度地面倾斜或倾斜度的仪器。该设备提供的重要数据可以帮助工程师和地质学家了解地下运动和土壤结构的变化。孔隙倾斜计的工作原理基于重力和设备在钻孔内的方向。通常，它由一个传感器组成，能够检测由于地质过程（如沉降、山体滑坡或地震活动）导致的钻孔壁角度变化。收集到的数据会通过孔隙倾斜计传输到监控系统，在那里可以实时分析。使用孔隙倾斜计的一个显著优势是它能够在较长时间内提供持续监测。传统的地面运动测量方法往往涉及人工测量，这可能耗时且可能错过测量之间发生的关键变化。相比之下，孔隙倾斜计通过允许自动数据收集提供了更高效的解决方案，使工程师能够快速响应任何潜在问题。此外，从孔隙倾斜计获得的数据在各种应用中都是无价的，包括隧道、坝和其他大型基础设施项目的建设。通过了解地面如何移动，工程师可以就设计调整和加固措施做出明智的决策，最终导致更安全的结构。除了建筑，矿业作业也受益于孔隙倾斜计的使用。随着采矿活动改变地形，监测地面稳定性变得至关重要，以防止事故并确保工人的安全。从孔隙倾斜计获得的见解可以帮助预测潜在的坍塌或土壤移动，从而允许及时干预。此外，环境研究也从孔隙倾斜计的使用中受益。例如，在易发生地震的地区，这些仪器可以在地震事件前后提供关于地面变形的关键信息。这些数据可以有助于更好地理解地震机制并改善预测模型。总之，孔隙倾斜计是现代岩土工程和地质研究中的一种重要工具。它能够持续准确地监测地面倾斜，使其在建筑、采矿和环境管理中不可或缺。随着技术的进步，我们可以期待孔隙倾斜计的能力进一步增强，从而获得更可靠的数据和改进的安全措施。在我们的监测系统中集成这些设备代表了我们努力保护人类和基础设施免受自然不可预测力量的重大进步。