ballistic detonation

简明释义

冲击起爆;

英英释义

例句

1.Military protocols are in place to handle any ballistic detonation 弹道爆炸 that could occur during training exercises.

军事协议已制定，以处理在训练演习中可能发生的任何弹道爆炸 ballistic detonation。

2.Scientists are studying the effects of ballistic detonation 弹道爆炸 on the surrounding environment.

科学家们正在研究弹道爆炸 ballistic detonation对周围环境的影响。

3.The investigation revealed that the ballistic detonation 弹道爆炸 was caused by a malfunction in the launch system.

调查显示，弹道爆炸 ballistic detonation是由发射系统故障引起的。

4.During the simulation, we observed a ballistic detonation 弹道爆炸 that resulted in significant damage to the target.

在模拟过程中，我们观察到了一次弹道爆炸 ballistic detonation，导致目标受到严重损坏。

5.The engineers discussed the risks involved in a potential ballistic detonation 弹道爆炸 during the missile test.

工程师们讨论了在导弹测试中可能发生的弹道爆炸 ballistic detonation的风险。

作文

The concept of ballistic detonation refers to the rapid explosion of a projectile or explosive device, typically associated with munitions or missiles. This phenomenon is critical in the field of military technology and defense systems. Understanding ballistic detonation is essential for engineers and scientists who work on developing safer and more effective weapons. The mechanics behind ballistic detonation involve various physical and chemical processes that occur when a projectile is launched and reaches its target. In essence, ballistic detonation occurs when a projectile, such as a missile or a bomb, travels through the air and detonates upon impact or at a predetermined altitude. This process is influenced by several factors, including the type of explosive used, the speed of the projectile, and environmental conditions. For instance, a missile designed for high-speed travel may have a different detonation mechanism than a conventional bomb. One of the key aspects of ballistic detonation is the timing of the explosion. Engineers often incorporate fuses or sensors that trigger the detonation at the optimal moment to maximize damage to the target. This precision is crucial in modern warfare, where collateral damage must be minimized while achieving strategic objectives. The advancements in technology have led to the development of smart munitions that can adjust their flight path and detonation timing based on real-time data. Moreover, the study of ballistic detonation also encompasses safety measures to prevent accidental explosions during storage or transport. Military organizations invest heavily in research to understand the risks associated with explosives and to develop protocols that ensure the safety of personnel and equipment. In addition to military applications, ballistic detonation has implications in other fields, such as mining and demolition. Controlled explosions are often used to break rock formations or demolish buildings safely. Understanding the principles of ballistic detonation allows professionals in these industries to conduct their operations effectively while minimizing risks. As we move into an era of advanced warfare technologies, the importance of understanding ballistic detonation cannot be overstated. It is not only about creating more powerful weapons but also about ensuring that they are used responsibly and ethically. The ongoing research in this area aims to balance the need for defense capabilities with the imperative of reducing harm to civilians and the environment. In conclusion, ballistic detonation is a complex and multifaceted concept that plays a vital role in modern warfare and various industrial applications. As technology continues to evolve, so too will our understanding of the mechanisms and implications of ballistic detonation. It is crucial for those involved in related fields to stay informed and engaged with the latest developments to ensure that advancements in this area contribute positively to society and global security.

“弹道引爆”的概念是指一种快速的爆炸现象，通常与军火或导弹相关。这一现象在军事技术和防御系统领域至关重要。理解“弹道引爆”对于从事安全和有效武器开发的工程师和科学家来说是必不可少的。“弹道引爆”背后的机制涉及当一个弹丸被发射并到达目标时发生的各种物理和化学过程。本质上，“弹道引爆”发生在一个弹丸（如导弹或炸弹）通过空气飞行并在撞击或预定高度时引爆。这个过程受到多种因素的影响，包括所使用的爆炸物类型、弹丸的速度和环境条件。例如，设计用于高速飞行的导弹可能具有与传统炸弹不同的引爆机制。“弹道引爆”的关键方面之一是爆炸的时机。工程师通常会结合引信或传感器，以在最佳时刻触发引爆，以最大化对目标的破坏。这种精确性在现代战争中至关重要，因为必须尽量减少附带损害，同时实现战略目标。技术的进步导致了智能弹药的发展，它们可以根据实时数据调整飞行路径和引爆时机。此外，“弹道引爆”的研究还包括防止在储存或运输过程中意外爆炸的安全措施。军事组织在研究爆炸物相关风险方面投入了大量资金，以制定确保人员和设备安全的协议。除了军事应用，“弹道引爆”在采矿和拆除等其他领域也有影响。控制爆炸通常用于安全地打破岩石或拆除建筑物。理解“弹道引爆”的原理使这些行业的专业人士能够有效地进行操作，同时最大限度地降低风险。随着我们进入先进战争技术的时代，理解“弹道引爆”的重要性不容小觑。这不仅仅是创造更强大的武器，还关乎确保这些武器的负责任和伦理使用。在这一领域的持续研究旨在平衡国防能力的需求与减少对平民和环境的伤害之间的必要性。总之，“弹道引爆”是一个复杂而多面的概念，在现代战争和各种工业应用中发挥着至关重要的作用。随着技术的不断发展，我们对“弹道引爆”的机制和影响的理解也将不断深化。参与相关领域的人士必须保持信息灵通，并关注最新的发展，以确保这一领域的进步对社会和全球安全产生积极影响。