broken rock zone

简明释义

岩石破碎带;

英英释义

例句

1.The geologists discovered a significant broken rock zone in the mountain, indicating past seismic activity.

地质学家在山中发现了一个显著的破碎岩石带，这表明过去发生过地震活动。

2.During the excavation, workers encountered a broken rock zone that slowed down their progress.

在挖掘过程中，工人们遇到了一个破碎岩石带，这减缓了他们的进度。

3.Exploration drilling revealed a large broken rock zone, suggesting potential mineral deposits.

勘探钻探揭示了一个大型的破碎岩石带，暗示可能存在矿藏。

4.The construction team had to reinforce the foundation due to the presence of a broken rock zone nearby.

由于附近存在一个破碎岩石带，施工队不得不加固基础。

5.The broken rock zone was filled with loose debris, making it hazardous for climbers.

这个破碎岩石带充满了松散的碎片，使得攀登者面临危险。

作文

The study of geology often reveals fascinating insights into the Earth's structure and the processes that shape our planet. One of the critical concepts in geology is the idea of a broken rock zone, which refers to an area where the rock has been fractured or broken due to various geological forces. Understanding this concept is essential for geologists, engineers, and environmental scientists as it plays a significant role in activities such as mining, construction, and natural disaster management.A broken rock zone can occur in various geological settings, including fault lines, volcanic regions, and areas subjected to erosion. These zones are characterized by a high degree of fragmentation in the rock, which can affect the stability of the ground and the behavior of groundwater. For instance, when constructing buildings or infrastructure, engineers must take into account the presence of a broken rock zone to ensure that their structures are safe and stable. If these zones are not properly assessed, they can lead to significant engineering challenges and even catastrophic failures.In mining operations, the identification of a broken rock zone is crucial for resource extraction. The fractures in the rock can either facilitate or hinder the mining process. On one hand, these zones may provide easier access to valuable minerals; on the other hand, they can also create hazards such as rock falls or unstable conditions that threaten the safety of workers. Therefore, mining companies invest considerable resources in geological surveys to map out broken rock zones before commencing operations.Moreover, broken rock zones are often associated with natural disasters such as landslides and earthquakes. When seismic activity occurs, the stress on the rocks can lead to sudden breaks, creating new broken rock zones and potentially triggering landslides that can devastate communities. Understanding the location and characteristics of these zones allows scientists to better predict and mitigate the impacts of such disasters. For example, early warning systems can be developed based on the knowledge of existing broken rock zones to alert residents in high-risk areas.In addition to their practical implications, broken rock zones also have ecological significance. The fractures in the rock can create habitats for various organisms, influencing local biodiversity. These zones can serve as pathways for water movement, impacting vegetation and soil composition in the surrounding areas. Thus, studying broken rock zones not only helps in understanding geological processes but also in conserving ecosystems.In conclusion, the concept of a broken rock zone is vital in multiple fields, including geology, engineering, and environmental science. Recognizing the implications of these zones helps professionals make informed decisions that enhance safety, optimize resource extraction, and protect the environment. As we continue to explore and understand our planet's geology, the study of broken rock zones will remain an essential component in addressing both human needs and ecological balance.

地质学的研究常常揭示出有关地球结构及塑造我们星球过程的迷人见解。一个关键的概念是破碎岩石带，它指的是由于各种地质力量而导致岩石破裂或断裂的区域。理解这一概念对地质学家、工程师和环境科学家至关重要，因为它在采矿、建筑和自然灾害管理等活动中发挥着重要作用。破碎岩石带可以发生在各种地质环境中，包括断层线、火山区域以及受到侵蚀的地区。这些区域的特征是岩石的高度碎裂，这可能影响地下的稳定性和地下水的行为。例如，在建造建筑物或基础设施时，工程师必须考虑破碎岩石带的存在，以确保其结构安全稳定。如果这些区域没有得到适当评估，可能会导致重大的工程挑战，甚至灾难性的失败。在采矿作业中，识别破碎岩石带对资源开采至关重要。岩石中的裂缝可能会促进或阻碍采矿过程。一方面，这些区域可能会提供更容易接触到有价值矿物的机会；另一方面，它们也可能会造成如落石或不稳定条件等危害，威胁工人的安全。因此，采矿公司在开始作业之前，会投入大量资源进行地质勘测，以绘制出破碎岩石带的分布图。此外，破碎岩石带通常与自然灾害如滑坡和地震相关。当发生地震活动时，岩石上的压力可能导致突然的断裂，形成新的破碎岩石带，并可能触发滑坡，对社区造成毁灭性影响。了解这些区域的位置和特征使科学家能够更好地预测和减轻此类灾害的影响。例如，可以基于现有的破碎岩石带知识开发早期预警系统，以警告高风险区域的居民。除了实际意义外，破碎岩石带还具有生态意义。岩石中的裂缝可以为各种生物创造栖息地，影响当地的生物多样性。这些区域可以作为水流动的通道，影响周围地区的植被和土壤成分。因此，研究破碎岩石带不仅有助于理解地质过程，还能保护生态环境。总之，破碎岩石带的概念在地质学、工程学和环境科学等多个领域至关重要。认识到这些区域的影响有助于专业人士做出明智的决策，从而增强安全性、优化资源开采并保护环境。随着我们继续探索和理解地球的地质，破碎岩石带的研究将始终是应对人类需求与生态平衡的重要组成部分。