traversing in core probe

简明释义

可移动的堆芯内探测器

英英释义

例句

1.Engineers are traversing in core probe to ensure the integrity of the testing process.

工程师们正在在核心探针中遍历以确保测试过程的完整性。

2.By traversing in core probe, we can obtain precise measurements of the material properties.

通过在核心探针中遍历，我们可以获得材料特性的精确测量。

3.During the experiment, traversing in core probe revealed unexpected anomalies in the data.

在实验过程中，在核心探针中遍历揭示了数据中的意外异常。

4.The technician is traversing in core probe to analyze the sample's internal structure.

技术人员正在在核心探针中遍历以分析样本的内部结构。

5.The software allows for traversing in core probe with advanced visualization tools.

该软件允许使用高级可视化工具进行在核心探针中遍历。

作文

In the field of geotechnical engineering, accurate data collection is crucial for understanding subsurface conditions. One of the most effective methods used in this field is the process of traversing in core probe. This technique involves moving a probe through soil or rock layers to obtain samples that reflect the geological characteristics of the site. By employing this method, engineers can gather essential information that aids in the design and construction of foundations, tunnels, and other infrastructure projects.The term traversing in core probe refers specifically to the systematic movement of a core sampling device within the ground. This device is designed to penetrate various materials, allowing for the extraction of cylindrical samples known as cores. These cores provide invaluable insights into the composition, structure, and moisture content of the earth's subsurface layers. The ability to analyze these factors is critical in predicting how the ground will behave under different loads and environmental conditions.During the traversing in core probe process, engineers typically follow a predetermined path to ensure comprehensive coverage of the area being studied. This systematic approach not only enhances the accuracy of the data collected but also minimizes the risk of missing critical geological features that could impact construction. The collected cores are then examined in a laboratory setting where their physical and chemical properties can be analyzed in detail. This analysis often includes tests for strength, permeability, and consolidation, which are vital for determining the suitability of the ground for construction purposes.Moreover, traversing in core probe is not just limited to soil analysis; it can also be applied in mineral exploration and environmental assessments. In mineral exploration, for instance, the technique helps geologists identify the presence of valuable minerals by examining the cores for specific mineral compositions. Similarly, environmental assessments utilize core samples to evaluate contamination levels and the overall health of the ecosystem.The importance of traversing in core probe cannot be overstated. Without this method, engineers would lack the necessary data to make informed decisions about construction projects. Inadequate site investigations can lead to severe consequences, including structural failures and costly project delays. Therefore, investing time and resources into thorough core sampling through traversing techniques is essential for the success and safety of engineering endeavors.In conclusion, traversing in core probe is a vital technique in geotechnical engineering that facilitates the collection of crucial data about subsurface conditions. Its systematic approach ensures comprehensive coverage and accurate results, which are indispensable for safe and effective construction practices. As technology continues to advance, the methods and tools used in core probing are likely to evolve, further enhancing our ability to understand and manage the complexities of the earth beneath our feet.

在岩土工程领域，准确的数据收集对于理解地下条件至关重要。该领域中使用的最有效方法之一是核心探测中的遍历过程。这一技术涉及通过土壤或岩石层移动探头，以获取反映现场地质特征的样本。通过采用这种方法，工程师可以收集到对基础、隧道和其他基础设施项目的设计和施工至关重要的信息。术语核心探测中的遍历特指在地下系统性地移动核心采样装置。该装置旨在穿透各种材料，允许提取称为核心的圆柱形样本。这些核心提供了对地球表层下各层组成、结构和含水量的宝贵见解。分析这些因素的能力对于预测地基在不同荷载和环境条件下的行为至关重要。在核心探测中的遍历过程中，工程师通常遵循预定路径，以确保对研究区域的全面覆盖。这种系统的方法不仅提高了所收集数据的准确性，还最大限度地降低了遗漏可能影响施工的关键地质特征的风险。收集到的核心样本随后在实验室环境中进行检查，以便详细分析其物理和化学特性。这种分析通常包括强度、渗透性和固结测试，这些对于确定地下是否适合施工至关重要。此外，核心探测中的遍历不仅限于土壤分析；它还可以应用于矿产勘探和环境评估。例如，在矿产勘探中，该技术帮助地质学家通过检查核心样本中的特定矿物成分来识别有价值矿物的存在。同样，环境评估利用核心样本评估污染水平和生态系统的整体健康。核心探测中的遍历的重要性不容小觑。如果没有这种方法，工程师将缺乏做出明智决策所需的数据。不充分的现场调查可能导致严重后果，包括结构失效和昂贵的项目延误。因此，在遍历技术中投入时间和资源进行彻底的核心采样对于工程项目的成功和安全至关重要。总之，核心探测中的遍历是岩土工程中一种重要技术，它促进了对地下条件的关键数据收集。其系统的方法确保了全面覆盖和准确结果，这对于安全有效的施工实践是不可或缺的。随着技术的不断进步，核心探测中使用的方法和工具可能会不断演变，进一步增强我们理解和管理我们脚下土地复杂性的能力。