gage by drilling
简明释义
钻孔测厚
英英释义
To measure or assess the size, depth, or quality of a material or surface by using a drill to extract samples or create holes. | 通过使用钻头提取样本或打孔来测量或评估材料或表面的大小、深度或质量。 |
例句
1.They decided to gage by drilling the rock layers to understand the geological history.
他们决定通过钻探测量岩层来了解地质历史。
2.To evaluate the integrity of the structure, engineers often gage by drilling at various points.
为了评估结构的完整性,工程师通常会在不同点进行钻探测量。
3.Before construction begins, it is essential to gage by drilling the foundation depth.
在施工开始之前,测量基础深度是必不可少的,这需要钻探测量。
4.The geologist suggested to gage by drilling to assess the underground water levels.
地质学家建议通过钻探测量来评估地下水位。
5.We can accurately determine the soil density by using the method of gage by drilling.
我们可以通过使用钻探测量的方法准确确定土壤密度。
作文
In the field of geology and engineering, understanding the properties of soil and rock is crucial for successful construction projects. One common method employed by professionals to assess these properties is to gage by drilling. This technique involves extracting samples from below the surface to analyze their composition, strength, and other physical characteristics. By gage by drilling, engineers and geologists can gather essential data that informs their decisions regarding foundation design, slope stability, and the overall feasibility of a project.The process typically begins with the selection of a drilling site based on preliminary surveys. Once the location is chosen, specialized equipment is used to bore into the ground, collecting samples at various depths. These samples are then transported to laboratories where they undergo rigorous testing. The information obtained through this method is invaluable; it helps to identify potential issues such as soil liquefaction, rock hardness, and groundwater levels.One of the significant advantages of gage by drilling is its ability to provide direct insights into subsurface conditions. Unlike surface surveys or remote sensing techniques, drilling allows for the collection of actual material samples, which can be tested for specific properties. This direct approach minimizes the uncertainty often associated with geological assessments and leads to more reliable project planning.Moreover, gage by drilling can also be utilized in environmental studies. For instance, when assessing contaminated sites, drilling can help determine the extent of pollution and the types of contaminants present in the soil. This information is critical for developing effective remediation strategies and ensuring compliance with environmental regulations.Despite its many advantages, gage by drilling is not without challenges. The process can be time-consuming and costly, particularly in areas with difficult terrain or extreme weather conditions. Additionally, the interpretation of drilling data requires expertise and experience, as various factors can influence the results. Therefore, it is essential for professionals in the field to have a thorough understanding of both the technical aspects of drilling and the geological context of the area being studied.In conclusion, gage by drilling is a fundamental technique in the fields of engineering and geology that provides critical information about subsurface conditions. Its application in construction and environmental assessment underscores its importance in ensuring safety and sustainability in various projects. As technology continues to advance, the methods and equipment used for drilling are likely to improve, making this technique even more efficient and effective in the future. Understanding how to gage by drilling will remain an essential skill for professionals in these fields, contributing to better decision-making and project outcomes.
在地质和工程领域,了解土壤和岩石的性质对成功的建设项目至关重要。专业人士常用的一种评估这些性质的方法是通过钻探来测量。该技术涉及从地下提取样本,以分析其成分、强度和其他物理特性。通过钻探来测量,工程师和地质学家可以收集到关键信息,这些信息为他们关于基础设计、坡度稳定性以及项目整体可行性的决策提供了依据。这一过程通常始于根据初步调查选择钻探地点。一旦选定位置,就会使用专业设备钻入地下,在不同深度收集样本。这些样本随后被运送到实验室进行严格测试。通过这种方法获得的信息是无价的;它有助于识别潜在问题,例如土壤液化、岩石硬度和地下水位。钻探来测量的一个显著优势是能够直接洞察地下条件。与表面调查或遥感技术不同,钻探允许收集实际材料样本,可以对其特定属性进行测试。这种直接的方法减少了与地质评估相关的不确定性,从而导致更可靠的项目规划。此外,钻探来测量也可以用于环境研究。例如,在评估受污染地点时,钻探可以帮助确定污染的范围以及土壤中存在的污染物类型。这些信息对于制定有效的修复策略并确保遵守环境法规至关重要。尽管有许多优点,但钻探来测量并非没有挑战。该过程可能耗时且成本高,特别是在地形复杂或天气极端的地区。此外,钻探数据的解释需要专业知识和经验,因为各种因素可能影响结果。因此,该领域的专业人士必须深入理解钻探的技术方面以及所研究地区的地质背景。总之,钻探来测量是一种在工程和地质领域的基本技术,为地下条件提供关键信息。它在建设和环境评估中的应用突显了其在确保各种项目安全和可持续性方面的重要性。随着技术的不断进步,未来用于钻探的方法和设备可能会得到改善,使这一技术变得更加高效和有效。了解如何钻探来测量将仍然是这些领域专业人员的一项基本技能,有助于更好的决策和项目成果。
相关单词
