quarter line pillaring

简明释义

边支柱

英英释义

例句

1.The contractor explained that quarter line pillaring would help distribute weight more evenly across the foundation.

承包商解释说，四分之一线支柱将有助于更均匀地分配基础上的重量。

2.During the design phase, we explored various options for quarter line pillaring in the new stadium.

在设计阶段，我们探讨了新体育场中使用四分之一线支柱的各种选项。

3.Using quarter line pillaring can significantly reduce the risk of structural failure in high-rise buildings.

使用四分之一线支柱可以显著降低高层建筑结构失效的风险。

4.The engineers incorporated quarter line pillaring into their plans to meet safety regulations.

工程师们在他们的计划中纳入了四分之一线支柱以符合安全规定。

5.The architect suggested using quarter line pillaring to enhance the structural integrity of the building.

建筑师建议使用四分之一线支柱来增强建筑的结构完整性。

作文

In the world of mining and resource extraction, various techniques are employed to maximize safety and efficiency. One such technique is known as quarter line pillaring. This method plays a crucial role in ensuring the stability of mine shafts while allowing for the extraction of valuable minerals. Understanding quarter line pillaring is essential for anyone involved in mining operations or studying geology. Quarter line pillaring refers to a specific approach in underground mining where pillars are strategically placed along the quarter lines of a mining area. These pillars are essentially columns of unmined material that support the roof of the mine, preventing collapses and ensuring the safety of the miners working below. The placement of these pillars is critical; they must be positioned in such a way that they provide maximum support while minimizing the amount of material that is left unextracted. The concept of quarter line pillaring can be traced back to the need for balancing safety and productivity in mining operations. In the past, miners often faced dangerous conditions due to poorly planned pillar placements, leading to cave-ins and accidents. By adopting the quarter line pillaring technique, mining engineers have been able to create safer working environments. This method not only enhances safety but also optimizes the extraction process, allowing for more efficient use of resources. Moreover, the implementation of quarter line pillaring can vary depending on the type of mineral being extracted and the geological conditions of the mining site. For instance, in coal mining, where the seams are often horizontal, the application of this technique may involve different strategies compared to hard rock mining. The adaptability of quarter line pillaring to various mining contexts demonstrates its importance in the industry. In addition to safety and efficiency, quarter line pillaring also has environmental implications. By leaving behind strategically placed pillars, mining companies can reduce the surface impact of their operations. This is especially important in today’s context, where environmental sustainability is becoming increasingly crucial. The careful planning of pillar placements helps to maintain the integrity of the land above the mining site, reducing the risk of subsidence and other ecological disturbances. Furthermore, the knowledge and expertise surrounding quarter line pillaring are vital for training new generations of miners and engineers. Educational programs in mining engineering often include detailed studies on various pillar design methods, including quarter line pillaring. Understanding the principles behind this technique equips students with the skills necessary to tackle real-world challenges in the mining sector. In conclusion, quarter line pillaring is a fundamental technique in the mining industry that emphasizes the importance of safety, efficiency, and environmental responsibility. As the field of mining continues to evolve, the relevance of quarter line pillaring will likely persist, serving as a cornerstone for safe and sustainable mining practices. It is imperative for those involved in mining operations to fully grasp the significance of this method, as it not only impacts their work but also contributes to the overall health of the mining industry and the environment.

四分之一线柱子法是采矿和资源开采领域中采用的一种技术，旨在最大化安全性和效率。这种方法在确保矿井稳定性方面发挥着至关重要的作用，同时允许提取有价值的矿物。理解四分之一线柱子法对于任何参与采矿作业或学习地质学的人来说都是必不可少的。 四分之一线柱子法是指在地下采矿中沿矿区四分之一线战略性地放置支柱的方法。这些支柱基本上是未开采材料的柱子，支持矿井的顶部，防止坍塌并确保在下面工作的矿工的安全。这些支柱的放置至关重要；它们必须以最大限度提供支持的方式进行定位，同时最小化留下未开采材料的数量。 四分之一线柱子法的概念可以追溯到在采矿操作中平衡安全性和生产力的需要。在过去，由于支柱放置不当，矿工常常面临危险条件，导致塌方和事故。通过采用四分之一线柱子法，矿业工程师能够创造更安全的工作环境。这种方法不仅增强了安全性，还优化了提取过程，使资源的使用更加高效。 此外，四分之一线柱子法的实施可能会根据提取的矿物类型和矿区的地质条件而有所不同。例如，在煤矿开采中，由于煤层通常是水平的，因此应用此技术时可能涉及不同的策略。四分之一线柱子法对各种采矿背景的适应性展示了其在行业中的重要性。 除了安全性和效率外，四分之一线柱子法还具有环境影响。通过留下战略性放置的支柱，采矿公司可以减少其操作对地表的影响。在当今环境可持续性日益重要的背景下，这一点尤其重要。支柱位置的精心规划有助于维护矿区上方土地的完整性，减少沉降和其他生态干扰的风险。 此外，围绕四分之一线柱子法的知识和专业技能对于培训新一代矿工和工程师至关重要。采矿工程的教育项目通常包括对各种支柱设计方法的详细研究，包括四分之一线柱子法。理解这一技术背后的原理使学生具备应对现实世界采矿挑战所需的技能。 总之，四分之一线柱子法是采矿行业中的一种基础技术，强调安全性、效率和环境责任的重要性。随着采矿领域的不断发展，四分之一线柱子法的相关性可能会持续存在，作为安全和可持续采矿实践的基石。参与采矿作业的人必须充分理解这一方法的重要性，因为它不仅影响他们的工作，还对采矿行业和环境的整体健康做出贡献。