stage blasting

简明释义

阶段爆破

英英释义

例句

1.The construction team implemented stage blasting to safely remove rock layers without damaging nearby structures.

施工团队实施了分阶段爆破，以安全地去除岩层而不损坏附近的建筑物。

2.During the mining operation, stage blasting was used to maximize efficiency and minimize environmental impact.

在采矿作业中，使用了分阶段爆破以最大化效率并最小化对环境的影响。

3.By using stage blasting, the team was able to control the amount of debris generated during the excavation.

通过使用分阶段爆破，团队能够控制挖掘过程中产生的碎屑量。

4.The engineers designed a stage blasting plan that would ensure the stability of the surrounding land.

工程师设计了一个分阶段爆破计划，以确保周围土地的稳定性。

5.The safety protocols for stage blasting include thorough inspections of the area before detonation.

对于分阶段爆破的安全协议包括在引爆前对区域进行彻底检查。

作文

In the world of mining and construction, efficient rock fragmentation is crucial for the success of any project. One of the most effective methods used to achieve this is called stage blasting. This technique involves dividing a large blasting operation into multiple smaller blasts, or stages, which allows for better control over the fragmentation process and minimizes the risk of damage to surrounding structures. The concept of stage blasting can be likened to a well-choreographed dance, where each movement is carefully planned to achieve a desired outcome without causing chaos. The primary advantage of stage blasting is its ability to optimize the use of explosives. By breaking down a large blast into smaller, more manageable sections, operators can tailor the amount of explosive used in each stage according to the geological conditions present. This not only enhances the efficiency of the blast but also reduces the overall cost of the operation. Moreover, stage blasting minimizes the environmental impact of blasting activities by controlling vibrations and air blasts, which can otherwise lead to unwanted disturbances in nearby communities.Furthermore, stage blasting provides improved safety for workers on-site. With traditional blasting methods, a single large explosion can create unpredictable hazards, including flying debris and shockwaves. However, by implementing a staged approach, the risks are significantly reduced. Each stage can be monitored and assessed before proceeding to the next, ensuring that all safety protocols are followed and that workers are kept at a safe distance during each blast.The planning phase of stage blasting is critical. Engineers must conduct thorough geological surveys to understand the rock formations and their characteristics. This information is essential for determining the optimal number of stages and the amount of explosive required for each one. Additionally, the spacing and timing of each blast must be meticulously calculated to ensure that the energy from one stage does not adversely affect the others. This level of precision is what sets stage blasting apart from other blasting techniques, making it a preferred choice in complex projects.Another important aspect of stage blasting is its adaptability. It can be applied in various settings, ranging from underground mines to surface quarries and even in urban construction sites. In densely populated areas, where noise and vibration control are paramount, stage blasting offers a solution that meets both operational needs and community concerns. By using this method, construction companies can carry out necessary work while maintaining good relations with local residents.In conclusion, stage blasting is a sophisticated technique that revolutionizes the way blasting operations are conducted. Its advantages in terms of efficiency, safety, and environmental impact make it an invaluable tool in the fields of mining and construction. As technology continues to advance, the methods and equipment used in stage blasting will likely evolve, further enhancing its effectiveness and application in various industries. Understanding and mastering this technique is essential for professionals in the field, as it not only improves project outcomes but also contributes to sustainable practices in resource extraction and construction.

在采矿和建筑的世界中，有效的岩石碎裂对于任何项目的成功至关重要。一种有效的方法是称为分阶段爆破。这种技术涉及将大型爆破操作分成多个较小的爆破或阶段，从而更好地控制碎裂过程，并最小化对周围结构的损害。分阶段爆破的概念可以类比为一场精心编排的舞蹈，每个动作都经过仔细计划，以实现预期的结果而不引起混乱。分阶段爆破的主要优点是能够优化炸药的使用。通过将大爆破分解为较小、更易于管理的部分，操作员可以根据地质条件量身定制每个阶段所需的炸药量。这不仅提高了爆破的效率，还降低了整体操作成本。此外，分阶段爆破通过控制震动和空气爆炸来最小化爆破活动对环境的影响，否则可能会对附近社区造成不必要的干扰。此外，分阶段爆破为现场工人提供了更好的安全保障。采用传统爆破方法时，一次大型爆炸可能会产生不可预测的危险，包括飞散的碎片和冲击波。然而，通过实施分阶段的方法，风险显著降低。每个阶段都可以在继续下一个阶段之前进行监控和评估，确保遵循所有安全协议，并在每次爆破期间将工人保持在安全距离。分阶段爆破的规划阶段至关重要。工程师必须进行彻底的地质调查，以了解岩石的形成及其特征。这些信息对于确定每个阶段的最佳数量和所需炸药量至关重要。此外，必须仔细计算每个爆破的间距和时机，以确保一个阶段的能量不会对其他阶段产生不利影响。这种精确程度使得分阶段爆破与其他爆破技术区别开来，使其成为复杂项目的首选。分阶段爆破的另一个重要方面是其适应性。它可以应用于各种环境，从地下矿井到露天采石场，甚至在城市建设工地。在人口稠密的地区，噪音和振动控制至关重要，分阶段爆破提供了一种满足操作需求和社区关注的解决方案。通过使用这种方法，建筑公司可以进行必要的工作，同时与当地居民保持良好的关系。总之，分阶段爆破是一种复杂的技术，彻底改变了爆破操作的进行方式。它在效率、安全性和环境影响方面的优势使其成为采矿和建筑领域的一种宝贵工具。随着技术的不断进步，分阶段爆破所使用的方法和设备可能会发展，进一步增强其在各个行业中的有效性和应用。理解和掌握这一技术对该领域的专业人士至关重要，因为它不仅改善了项目结果，而且有助于资源开采和建筑中的可持续实践。