collision blasting

简明释义

碰撞爆破

英英释义

例句

1.The mining company implemented collision blasting to maximize resource extraction.

这家矿业公司实施了冲击爆破以最大化资源开采。

2.The team studied the effects of collision blasting on nearby structures.

团队研究了冲击爆破对附近建筑物的影响。

3.The geologist explained how collision blasting can alter geological formations.

地质学家解释了冲击爆破如何改变地质构造。

4.Safety measures were enhanced during collision blasting operations.

在冲击爆破作业期间，安全措施得到了加强。

5.During the construction, collision blasting was used to clear large rock formations.

在施工过程中，使用了冲击爆破来清除大型岩石。

作文

In the world of physics and engineering, the term collision blasting refers to a process that involves the use of explosive materials to break rock or other materials through controlled explosions. This technique is commonly used in mining, construction, and demolition industries where traditional methods of breaking materials may be insufficient or inefficient. The fundamental principle behind collision blasting lies in the rapid release of energy from explosives, which creates shock waves that propagate through the material, causing it to fracture and break apart. The effectiveness of collision blasting depends on several factors, including the type of explosive used, the geological characteristics of the material being blasted, and the design of the blast itself. Engineers must carefully plan each blast to ensure that it achieves the desired results while minimizing risks to surrounding structures and the environment. This planning often includes detailed calculations regarding the amount of explosives needed, the timing of the detonations, and the layout of the blast holes.One of the key benefits of collision blasting is its ability to reduce the size of large rock formations into manageable pieces. In mining operations, for example, large boulders can obstruct the extraction of valuable minerals. By employing collision blasting, miners can create pathways and access points that would otherwise be impossible to reach. This not only increases efficiency but also enhances safety by reducing the need for manual labor in hazardous conditions.Moreover, collision blasting plays a critical role in infrastructure development. When constructing tunnels, highways, or buildings, engineers often encounter solid rock that must be removed to create a stable foundation. Using collision blasting, they can effectively clear these obstacles while maintaining control over the extent of the damage caused to the surrounding area. This precision is vital in urban settings where nearby structures must be protected from vibrations and debris.However, the use of collision blasting is not without challenges. Environmental concerns are paramount, as the detonation of explosives can lead to air and noise pollution, as well as potential harm to wildlife habitats. As a result, regulatory agencies impose strict guidelines on how and where collision blasting can be conducted. Companies must adhere to these regulations and often conduct environmental impact assessments before proceeding with any blasting operations.In conclusion, collision blasting is a powerful technique that has revolutionized the way we approach material removal in various industries. Its ability to efficiently break down large volumes of rock and other materials makes it an indispensable tool for engineers and construction professionals. However, with great power comes great responsibility; it is essential that those who utilize collision blasting do so with careful consideration of the environmental and safety implications. As technology advances, it is likely that we will see even more innovative applications of collision blasting that further enhance its effectiveness while minimizing its impact on the world around us.

在物理和工程领域，术语collision blasting指的是一种通过控制爆炸来破碎岩石或其他材料的过程，该过程涉及使用爆炸材料。这种技术通常用于采矿、建筑和拆除行业，在这些行业中，传统的破碎材料方法可能不足或效率低下。collision blasting背后的基本原理是爆炸物释放能量的快速过程，这会产生震波，传播通过材料，导致其断裂和分裂。collision blasting的有效性取决于几个因素，包括使用的爆炸物类型、被爆破材料的地质特征以及爆破设计本身。工程师必须仔细规划每一次爆破，以确保它达到预期的结果，同时将对周围结构和环境的风险降到最低。这种规划通常包括关于所需爆炸物数量、引爆的时机和爆破孔布局的详细计算。collision blasting的一个关键好处是能够将大型岩石形成物减少为可管理的碎片。例如，在采矿作业中，大块岩石可能会阻碍有价值矿物的开采。通过采用collision blasting，矿工可以创建通道和出入口，否则将无法到达。这不仅提高了效率，还通过减少在危险条件下进行人工劳动的需要来增强安全性。此外，collision blasting在基础设施发展中也发挥着关键作用。在建设隧道、高速公路或建筑物时，工程师常常会遇到必须移除的坚硬岩石，以创建稳定的基础。使用collision blasting，他们可以有效地清除这些障碍，同时保持对周围区域损害程度的控制。这种精确度在城市环境中至关重要，因为附近的结构必须受到保护，以免受到振动和碎片的影响。然而，使用collision blasting并非没有挑战。环境问题至关重要，因为爆炸物的引爆可能导致空气和噪音污染，以及对野生动物栖息地的潜在危害。因此，监管机构对collision blasting的进行地点和方式施加了严格的指导方针。公司必须遵守这些规定，并通常在进行任何爆破作业之前进行环境影响评估。总之，collision blasting是一种强大的技术，彻底改变了我们在各个行业中处理材料移除的方法。其高效破碎大量岩石和其他材料的能力使其成为工程师和建筑专业人士不可或缺的工具。然而，强大的力量伴随着巨大的责任；利用collision blasting的人必须仔细考虑环境和安全的影响。随着技术的进步，我们可能会看到更具创新性的collision blasting应用，这将进一步提高其效果，同时最小化对周围世界的影响。