electric coring

简明释义

1. 电测井; 2. 电钻取岩心; 3. 电钻取心;

英英释义

例句

1.Using electric coring tools, the workers were able to complete the task much faster than expected.

工人们使用电动钻孔工具，能够比预期更快地完成任务。

2.The contractor recommended electric coring for its efficiency and speed in large-scale projects.

承包商推荐使用电动钻孔，因为它在大规模项目中的效率和速度。

3.With electric coring, we can minimize dust and noise during the drilling process.

使用电动钻孔，我们可以在钻孔过程中减少灰尘和噪音。

4.After conducting an analysis, the engineers decided that electric coring was the best method for this type of material.

经过分析，工程师们决定电动钻孔是这种材料的最佳处理方法。

5.The construction team used electric coring to create precise holes in the concrete for the new plumbing system.

施工队使用电动钻孔在混凝土中开出精确的孔，以便安装新的管道系统。

作文

In the field of geology and construction, various techniques are employed to extract core samples from the earth. One such technique is electric coring, which involves the use of electrical tools to drill into the ground and retrieve cylindrical samples of soil or rock. This method has gained popularity due to its efficiency and precision compared to traditional coring methods. The process of electric coring typically begins with the selection of an appropriate site for drilling. Engineers and geologists analyze the area to determine the best locations for sampling based on geological surveys and the specific information required. Once the site is chosen, the electric coring equipment is set up, which includes a power source, drill bits, and a core barrel designed to capture the sample as it is extracted.The main advantage of electric coring is its ability to operate at a higher speed than manual drilling techniques. The electric drill generates consistent torque and speed, allowing for faster penetration into harder materials. This not only saves time but also reduces labor costs associated with the drilling process. Furthermore, the precision offered by electric drills ensures that the core samples retrieved are of high quality, with minimal disturbance to the surrounding material. This is particularly important in geological studies where the integrity of the sample can significantly affect the analysis and results.Another significant benefit of electric coring is its versatility. It can be used in various environments, including urban settings, where noise restrictions may limit the use of traditional drilling methods. Electric coring systems are often quieter and produce fewer vibrations, making them suitable for sensitive areas. Additionally, they can be adapted to different types of geological conditions, whether soft soils or hard rock formations, demonstrating their flexibility in application.However, like any technology, electric coring does come with its challenges. The initial setup cost can be high, as specialized equipment is required. Moreover, operators need to be trained to handle the machinery safely and effectively. Regular maintenance of the equipment is also essential to ensure optimal performance and longevity.Despite these challenges, the advantages of electric coring make it a preferred choice for many professionals in the industry. As technology continues to advance, we can expect further improvements in electric coring techniques, leading to even more efficient and environmentally friendly methods of obtaining geological samples. In conclusion, electric coring represents a significant advancement in the field of geological exploration and construction, providing a reliable means of obtaining crucial data about the earth's subsurface. Its efficiency, precision, and adaptability make it an invaluable tool for engineers and geologists alike, paving the way for better-informed decisions in construction and resource management.

在地质学和建筑领域，采用各种技术从地球中提取岩心样本。其中一种技术是电动取芯，它涉及使用电动工具钻入地下并提取土壤或岩石的圆柱形样本。由于其效率和精确性，这种方法相比传统的取芯方法越来越受欢迎。电动取芯的过程通常从选择适当的钻探地点开始。工程师和地质学家分析该地区，以根据地质调查和所需的具体信息确定最佳采样位置。一旦选择了站点，电动取芯设备就会被设置好，包括电源、钻头和设计用于在提取时捕获样本的岩心桶。电动取芯的主要优点是其工作速度比手动钻探技术高。电动钻机产生一致的扭矩和速度，使其能够更快地穿透较硬的材料。这不仅节省了时间，还降低了与钻探过程相关的劳动力成本。此外，电动钻机提供的精度确保提取的岩心样本质量高，对周围材料的干扰最小。这在地质研究中尤为重要，因为样本的完整性会显著影响分析和结果。电动取芯的另一个显著好处是其多功能性。它可以在各种环境中使用，包括城市环境，在那里噪音限制可能限制传统钻探方法的使用。电动取芯系统通常更安静，产生的振动更少，因此适合在敏感区域使用。此外，它们可以适应不同类型的地质条件，无论是软土还是坚硬的岩石层，展示了其应用的灵活性。然而，像任何技术一样，电动取芯也面临挑战。初始设置成本可能很高，因为需要专门的设备。此外，操作人员需要接受培训，以安全有效地操作机械。定期维护设备也是确保最佳性能和使用寿命的关键。尽管存在这些挑战，电动取芯的优势使其成为许多行业专业人士的首选。随着技术的不断进步，我们可以期待电动取芯技术的进一步改善，从而实现更高效和更环保的获取地质样本的方法。总之，电动取芯代表了地质勘探和建筑领域的一项重大进展，为获取关于地球表层下的重要数据提供了可靠的手段。其效率、精确性和适应性使其成为工程师和地质学家不可或缺的工具，为建筑和资源管理中的更明智决策铺平了道路。