combustion of explosives

简明释义

炸药的燃烧

英英释义

例句

1.The engineer explained the risks associated with the combustion of explosives in construction sites.

工程师解释了施工现场与爆炸物的燃烧相关的风险。

2.Understanding the combustion of explosives is crucial for safety in military operations.

理解爆炸物的燃烧对于军事行动的安全至关重要。

3.The documentary highlighted the science behind the combustion of explosives and its applications.

纪录片强调了爆炸物的燃烧背后的科学及其应用。

4.Firefighters are trained to handle situations involving the combustion of explosives safely.

消防员接受培训，以安全处理涉及爆炸物的燃烧的情况。

5.The laboratory conducted tests to measure the energy released during the combustion of explosives.

实验室进行了测试，以测量在爆炸物的燃烧过程中释放的能量。

作文

The study of the combustion of explosives is a crucial aspect of both engineering and safety management. Understanding how explosives ignite and release energy can help prevent accidents and improve the effectiveness of controlled detonations. In essence, the combustion of explosives refers to the rapid chemical reaction that occurs when an explosive material reacts with oxygen, resulting in the release of heat, gas, and pressure. This process is not only fascinating but also essential for various applications such as mining, demolition, and military operations.When discussing the combustion of explosives, one must consider the different types of explosives available. There are two main categories: primary and secondary explosives. Primary explosives are sensitive to heat, friction, and shock, making them suitable for use in detonators. Secondary explosives, on the other hand, require a significant amount of energy to initiate their combustion. They are often used in larger applications where a controlled explosion is necessary.The combustion of explosives involves several stages, starting with ignition. Ignition can occur through various means, including heat, spark, or shockwave. Once ignited, the explosive material undergoes a rapid decomposition, producing gases that expand quickly. This expansion generates a shockwave, which is the primary force behind the destructive potential of explosives.Safety is a paramount concern when dealing with the combustion of explosives. Proper handling, storage, and transportation of explosive materials are critical to preventing accidental detonations. Regulations and guidelines are in place to ensure that explosives are managed safely. For example, explosives should be stored in designated magazines that are designed to contain any accidental explosions and minimize risk to personnel and property.In addition to safety, the combustion of explosives has significant implications in various fields. In mining, for instance, controlled explosions are used to break rock efficiently, allowing for the extraction of valuable minerals. In construction, explosives can facilitate the demolition of old structures, paving the way for new developments. The military also relies on the combustion of explosives for munitions and ordnance, highlighting its importance in defense strategies.Moreover, advancements in technology have led to the development of more efficient explosive materials that produce less environmental impact. Researchers are continually exploring ways to enhance the performance of explosives while ensuring safety and reducing harmful emissions during the combustion of explosives.In conclusion, the combustion of explosives is a complex process that plays a vital role in various industries. From mining to military applications, understanding the principles behind explosive reactions is essential for ensuring safety and effectiveness. As technology advances, the study of explosives will continue to evolve, providing new insights and improvements in their use. Therefore, it is crucial for professionals in this field to stay informed about the latest research and developments related to the combustion of explosives.

爆炸物的燃烧研究是工程和安全管理的一个关键方面。理解爆炸物如何点燃并释放能量有助于防止事故，并提高受控爆破的有效性。从本质上讲，爆炸物的燃烧是指当爆炸材料与氧气反应时发生的快速化学反应，导致热量、气体和压力的释放。这个过程不仅令人着迷，而且对采矿、拆除和军事行动等各种应用至关重要。在讨论爆炸物的燃烧时，必须考虑可用的不同类型的爆炸物。主要分为两类：初级和次级爆炸物。初级爆炸物对热、摩擦和冲击敏感，适合用于引爆器。而次级爆炸物则需要大量能量才能启动其燃烧，通常用于需要控制爆炸的大型应用中。爆炸物的燃烧涉及几个阶段，从点火开始。点火可以通过多种方式发生，包括热、火花或冲击波。一旦点燃，爆炸材料会迅速分解，产生快速膨胀的气体。这种膨胀会产生冲击波，这是爆炸物破坏潜力的主要力量。在处理爆炸物的燃烧时，安全是最重要的考虑因素。正确的处理、储存和运输爆炸材料对于防止意外引爆至关重要。为了确保爆炸物的安全管理，制定了相关法规和指南。例如，爆炸物应存放在指定的弹药库中，这些库设计用于容纳任何意外爆炸，并将人员和财产的风险降到最低。除了安全，爆炸物的燃烧在各个领域也具有重要意义。例如，在采矿中，受控爆炸用于高效破碎岩石，从而提取有价值的矿物。在建筑中，爆炸物可以促进旧结构的拆除，为新开发项目铺平道路。军事方面也依赖于爆炸物的燃烧来制造弹药和军火，突显其在国防战略中的重要性。此外，技术的进步导致了更高效的爆炸材料的发展，这些材料在燃烧过程中产生的环境影响较小。研究人员不断探索增强爆炸物性能的方法，同时确保安全并减少在爆炸物的燃烧过程中产生的有害排放。总之，爆炸物的燃烧是一个复杂的过程，在各个行业中发挥着至关重要的作用。从采矿到军事应用，理解爆炸反应背后的原理对于确保安全和有效性至关重要。随着技术的进步，爆炸物的研究将继续发展，提供新的见解和改进。因此，处于该领域的专业人士必须及时了解与爆炸物的燃烧相关的最新研究和发展。