angle cut blasting

简明释义

中心掏槽爆破;

英英释义

例句

1.During the meeting, they discussed the benefits of angle cut blasting compared to traditional methods.

在会议上，他们讨论了角切爆破相较于传统方法的优势。

2.Safety protocols must be followed during angle cut blasting to prevent accidents.

在进行角切爆破时必须遵循安全协议，以防止事故发生。

3.For this project, angle cut blasting was chosen for its precision and effectiveness in shaping the landscape.

在这个项目中，选择了角切爆破，因为它在塑造地形方面的精确性和有效性。

4.The engineers recommended angle cut blasting to minimize vibration damage to nearby structures.

工程师建议采用角切爆破以最小化对附近建筑物的振动损害。

5.The construction team used angle cut blasting to efficiently break through the rock formation.

施工团队使用角切爆破有效地突破岩层。

作文

In the realm of construction and mining, various techniques are employed to ensure efficiency and safety. One such method that has gained attention in recent years is angle cut blasting. This technique involves strategically placing explosives at specific angles to optimize the fragmentation of rock or other materials. The primary objective of angle cut blasting is to create a more controlled and effective blast, thereby reducing the amount of energy wasted during the process.Understanding the mechanics behind angle cut blasting requires a basic knowledge of how traditional blasting works. Typically, explosives are placed in boreholes drilled into the rock, and when detonated, they produce shock waves that fracture the surrounding material. However, conventional blasting can lead to uneven fragmentation, excessive vibration, and fly rock, which poses risks to both personnel and equipment.This is where angle cut blasting comes into play. By adjusting the angle at which explosives are placed, engineers can influence the direction of the blast and the resulting fragmentation pattern. For instance, a well-executed angle cut blasting can lead to smaller, more manageable rock pieces, making it easier to transport and process the material afterward. Additionally, this method can minimize the environmental impact by reducing noise and vibration levels, which is crucial in urban areas or near sensitive ecosystems.The implementation of angle cut blasting also requires careful planning and precise calculations. Engineers must consider factors such as the type of rock, the desired fragmentation size, and the surrounding environment. By conducting thorough analyses and simulations, they can determine the optimal angles and charge placements needed to achieve the desired outcome. This level of precision not only enhances safety but also improves overall productivity on site.Moreover, angle cut blasting can be particularly beneficial in challenging terrains where traditional methods may fall short. In steep or uneven landscapes, for example, controlling the blast direction becomes even more critical. The ability to tailor the explosive placement allows operators to navigate these obstacles effectively, ensuring that the project progresses smoothly.In conclusion, angle cut blasting represents a significant advancement in blasting technology. Its ability to enhance fragmentation control and reduce environmental impacts makes it an attractive option for many construction and mining projects. As industries continue to seek more efficient and sustainable methods, techniques like angle cut blasting will undoubtedly play a vital role in shaping the future of resource extraction and construction practices. Understanding and mastering this technique not only contributes to safer operations but also aligns with the growing emphasis on environmental stewardship in today’s industrial landscape.

在建筑和采矿领域，各种技术被用于确保效率和安全。其中一种近年来引起关注的方法是角切爆破。这种技术涉及将炸药以特定角度战略性地放置，以优化岩石或其他材料的碎裂。角切爆破的主要目的是创造一个更可控和有效的爆炸，从而减少在过程中浪费的能量。理解角切爆破背后的机制需要对传统爆破有基本的了解。通常，炸药被放置在钻入岩石的孔中，当引爆时，它们产生的冲击波会破坏周围的材料。然而，传统爆破可能导致不均匀的碎裂、过度的振动和飞石，这对人员和设备构成风险。这就是角切爆破发挥作用的地方。通过调整炸药放置的角度，工程师可以影响爆炸的方向和最终的碎裂模式。例如，执行良好的角切爆破可以导致较小、更易于管理的岩石块，使后续运输和处理材料变得更加容易。此外，这种方法还可以通过降低噪音和振动水平来最小化环境影响，这在城市地区或靠近敏感生态系统时尤为重要。实施角切爆破还需要仔细规划和精确计算。工程师必须考虑岩石的类型、所需的碎裂大小以及周围环境。通过进行全面的分析和模拟，他们可以确定实现所需结果所需的最佳角度和装药位置。这种精确程度不仅提高了安全性，还改善了现场的整体生产力。此外，在传统方法可能不太奏效的困难地形中，角切爆破尤其有利。在陡峭或不平坦的地形中，例如，控制爆炸方向变得更加关键。能够量身定制炸药的放置使操作员能够有效地应对这些障碍，确保项目顺利进行。总之，角切爆破代表了爆破技术的重大进步。它增强了碎裂控制和减少环境影响的能力，使其成为许多建筑和采矿项目的吸引人选择。随着各行业继续寻求更高效和可持续的方法，像角切爆破这样的技术无疑将在塑造资源开采和建筑实践的未来中发挥重要作用。理解和掌握这一技术不仅有助于更安全的操作，也与当今工业环境保护日益增长的重视相一致。