rete of detonation

简明释义

爆轰速度

英英释义

例句

1.In mining operations, the rate of detonation can determine the efficiency of rock fragmentation.

在采矿作业中，爆轰速度可以决定岩石破碎的效率。

2.The rate of detonation affects how quickly an explosive will react upon initiation.

在引发时，爆轰速度影响炸药反应的速度。

3.The engineer calculated the rate of detonation to ensure the safety of the explosives used in construction.

工程师计算了爆轰速度以确保施工中使用的炸药安全。

4.The team conducted tests to measure the rate of detonation of various explosive materials.

团队进行了测试，以测量各种炸药材料的爆轰速度。

5.Understanding the rate of detonation is crucial for designing effective military ordnance.

了解爆轰速度对设计有效的军用弹药至关重要。

作文

The concept of rate of detonation refers to the speed at which a detonating wave travels through an explosive material. This rate is a crucial factor in determining the effectiveness and efficiency of explosives used in various applications, from military operations to construction projects. Understanding the rate of detonation is essential for engineers and scientists who work with explosives, as it influences the design and selection of materials for specific purposes. In military contexts, the rate of detonation can significantly affect the outcome of an operation. For instance, when deploying explosives to breach walls or destroy enemy installations, a higher rate of detonation can lead to more effective results. A fast detonation can create a shock wave that maximizes damage over a larger area, making it a preferred choice in certain tactical scenarios. Conversely, in situations where precision is required, a slower rate of detonation may be advantageous, allowing for controlled demolition without collateral damage.In the field of construction, understanding the rate of detonation is equally important. Engineers must carefully calculate the rate of detonation when using explosives for tasks such as quarrying or tunneling. A well-planned detonation can minimize vibrations and ensure the safety of surrounding structures. Moreover, the rate of detonation affects how the explosive interacts with geological formations, influencing the overall success of the project.The rate of detonation is not only a matter of speed but also involves various factors, including the type of explosive, its density, and the surrounding environment. Different explosives have different characteristics; for example, high explosives like TNT and RDX have distinct rates of detonation that dictate their usage in specific applications. Additionally, environmental factors such as temperature and pressure can alter the rate of detonation, making it necessary for professionals to conduct thorough testing and analysis before deployment.Furthermore, advancements in technology have led to improved methods for measuring and controlling the rate of detonation. Modern techniques utilize sophisticated instrumentation to monitor detonations in real-time, allowing for precise adjustments and enhancing safety protocols. This technological progress is vital in ensuring that explosives are used responsibly and effectively, minimizing risks to personnel and infrastructure.In conclusion, the rate of detonation is a fundamental aspect of explosives that impacts various fields, including military, construction, and mining. A comprehensive understanding of this concept enables professionals to make informed decisions about explosive use, ultimately leading to safer and more efficient operations. As the industry continues to evolve, ongoing research and innovation will further refine our understanding of the rate of detonation, paving the way for new applications and enhanced safety measures in explosive handling.

“爆炸速率”这一概念指的是爆炸波在爆炸材料中传播的速度。这个速率是决定各种应用中爆炸物有效性和效率的关键因素，从军事行动到建筑项目都涉及到。理解“爆炸速率”对从事爆炸物工作的工程师和科学家至关重要，因为它影响着特定目的材料的设计和选择。在军事背景下，“爆炸速率”可以显著影响行动的结果。例如，在部署爆炸物以突破墙壁或摧毁敌方设施时，较高的“爆炸速率”可以导致更有效的结果。快速的爆炸可以产生冲击波，最大化更大区域的破坏，使其在某些战术场景中成为优选。相反，在需要精确的情况下，较慢的“爆炸速率”可能更具优势，可以在不造成附带损害的情况下进行控制性拆除。在建筑领域，理解“爆炸速率”同样重要。工程师在使用爆炸物进行采石或隧道开挖等任务时，必须仔细计算“爆炸速率”。精心规划的爆炸可以最小化振动，并确保周围结构的安全。此外，“爆炸速率”影响爆炸物与地质形成的相互作用，从而影响项目的整体成功。“爆炸速率”不仅是速度问题，还涉及多种因素，包括爆炸物的类型、密度和周围环境。不同的爆炸物具有不同的特性；例如，像TNT和RDX这样的高能炸药有不同的“爆炸速率”，这决定了它们在特定应用中的使用。此外，温度和压力等环境因素可以改变“爆炸速率”，使专业人员在部署前进行彻底测试和分析成为必要。此外，技术的进步使得测量和控制“爆炸速率”的方法得到了改善。现代技术利用复杂的仪器实时监测爆炸，允许精确调整并增强安全协议。这一技术进步对确保爆炸物的负责任和有效使用至关重要，最大限度地减少对人员和基础设施的风险。总之，“爆炸速率”是爆炸物的一个基本方面，影响着军事、建筑和采矿等多个领域。对这一概念的全面理解使专业人员能够就爆炸物的使用做出明智的决策，最终导致更安全和更高效的操作。随着行业的不断发展，持续的研究和创新将进一步完善我们对“爆炸速率”的理解，为新的应用和增强的爆炸物处理安全措施铺平道路。