blasting agent
简明释义
炸药
英英释义
A blasting agent is a substance that is used to produce an explosion, typically in mining or construction, and requires a high-energy initiator to detonate. | 爆破剂是用于产生爆炸的物质,通常在采矿或建筑中使用,需要高能引发剂才能引爆。 |
例句
1.The quarry operator selected a specific blasting agent to optimize the fragmentation of the stone.
采石场操作员选择了一种特定的爆破剂以优化石材的破碎效果。
2.Safety protocols must be followed when handling any blasting agent on site.
在现场处理任何爆破剂时,必须遵循安全协议。
3.The construction team used a reliable blasting agent to break through the rock formations.
施工队使用了可靠的爆破剂来突破岩层。
4.Environmental regulations dictate the use of less harmful blasting agents in sensitive areas.
环境法规规定在敏感区域使用危害较小的爆破剂。
5.In mining operations, the choice of blasting agent can significantly affect productivity.
在采矿作业中,爆破剂的选择会显著影响生产效率。
作文
In the world of construction and mining, the term blasting agent refers to a type of explosive material that is used to break rock or other solid materials. These agents are crucial in various industries, as they allow for the efficient excavation of materials needed for infrastructure development and resource extraction. Understanding the properties and applications of blasting agents is essential for professionals in these fields. Blasting agents can be classified into two main categories: those that require a booster to initiate detonation and those that can be detonated by a shock wave from another explosive. The most common examples of blasting agents include ammonium nitrate fuel oil (ANFO) and emulsions. ANFO, which consists of ammonium nitrate and fuel oil, is widely used due to its cost-effectiveness and ease of handling. Emulsions, on the other hand, are more stable and can be used in wet conditions, making them ideal for certain mining environments. The use of blasting agents involves several key considerations, including safety, environmental impact, and efficiency. Safety is paramount, as improper handling of explosives can lead to catastrophic accidents. Therefore, strict regulations govern the storage, transportation, and use of these materials. Workers in the field must undergo rigorous training to ensure they understand the risks associated with blasting agents and how to mitigate them. In addition to safety, the environmental impact of using blasting agents cannot be overlooked. The detonation of explosives can produce vibrations, noise, and air blasts that may affect nearby communities and wildlife. To minimize these effects, companies often conduct thorough site assessments and implement measures such as controlled blasting techniques. These methods help to reduce the intensity of the blast and its impact on the surrounding area. Efficiency is another critical factor when it comes to the use of blasting agents. The goal of any blasting operation is to maximize the amount of material broken while minimizing costs and environmental damage. This requires careful planning and execution, including the selection of the appropriate blasting agents and the design of the blast pattern. Engineers and geologists work together to analyze the geological conditions and determine the most effective approach to achieve the desired results. In conclusion, blasting agents play a vital role in the construction and mining industries. Their ability to efficiently break rock and other materials makes them indispensable for various projects. However, with this power comes responsibility. It is essential for professionals to prioritize safety, consider the environmental implications, and strive for efficiency in their use of blasting agents. By doing so, they can ensure that their operations are not only successful but also sustainable for future generations. In summary, the term blasting agent (爆破剂) encompasses a range of explosive materials that are essential for breaking solid materials in construction and mining. Understanding their properties, applications, and the responsibilities that come with their use is crucial for anyone involved in these industries.
在建筑和采矿的世界中,术语blasting agent(爆破剂)指的是一种用于破碎岩石或其他固体材料的爆炸材料。这些剂在各个行业中至关重要,因为它们使得高效开采基础设施发展和资源提取所需的材料成为可能。理解blasting agents(爆破剂)的特性和应用对这些领域的专业人士至关重要。爆破剂可以分为两大类:需要引爆器来引发爆炸的和可以通过来自其他爆炸物的冲击波引爆的。最常见的blasting agents(爆破剂)包括硝酸铵燃料油(ANFO)和乳化剂。ANFO由硝酸铵和燃料油组成,由于其成本效益高且易于处理而被广泛使用。而乳化剂则更为稳定,可以在潮湿条件下使用,因此在某些采矿环境中理想。使用blasting agents(爆破剂)涉及几个关键考虑因素,包括安全性、环境影响和效率。安全性是首要任务,因为不当处理爆炸物可能导致灾难性事故。因此,严格的规定管理着这些材料的储存、运输和使用。现场工人必须接受严格的培训,以确保他们了解与blasting agents(爆破剂)相关的风险及其缓解方式。除了安全性,使用blasting agents(爆破剂)的环境影响也不能被忽视。爆炸的引爆可能产生振动、噪音和空气冲击,这可能影响附近的社区和野生动物。为了最小化这些影响,公司通常会进行彻底的现场评估,并实施诸如控制爆破技术等措施。这些方法有助于减少爆炸的强度及其对周围地区的影响。效率是使用blasting agents(爆破剂)时另一个关键因素。任何爆破作业的目标都是最大限度地破碎材料,同时最小化成本和环境损害。这需要仔细的规划和执行,包括选择适当的blasting agents(爆破剂)和设计爆破模式。工程师和地质学家共同合作,分析地质条件并确定实现预期结果的最有效方法。总之,blasting agents(爆破剂)在建筑和采矿行业中发挥着至关重要的作用。它们高效破碎岩石和其他材料的能力使其成为各种项目不可或缺的一部分。然而,这种力量伴随着责任。专业人士必须优先考虑安全,考虑环境影响,并在使用blasting agents(爆破剂)时追求效率。通过这样做,他们可以确保他们的操作不仅成功,而且对未来几代人可持续。总之,术语blasting agent(爆破剂)涵盖了一系列对建筑和采矿中破碎固体材料至关重要的爆炸材料。理解它们的特性、应用以及随之而来的责任对于参与这些行业的任何人来说都是至关重要的。
相关单词
