detonation point

简明释义

爆炸点

英英释义

例句

1.Understanding the detonation point of different explosives is crucial for effective handling.

了解不同炸药的爆炸点对有效处理至关重要。

2.In a controlled environment, they tested various materials to see how they reacted at the detonation point.

在一个受控环境中，他们测试了各种材料，以观察它们在爆炸点的反应。

3.The military operations were designed to hit the enemy's supply lines at the detonation point.

军事行动的设计旨在打击敌方在爆炸点的补给线。

4.The engineers calculated the exact detonation point to ensure maximum efficiency in the explosion.

工程师们计算了确切的爆炸点以确保爆炸的最大效率。

5.Safety protocols must be followed when approaching the detonation point during demolition.

在拆除过程中接近爆炸点时，必须遵循安全协议。

作文

The concept of a detonation point is crucial in various fields, particularly in physics and engineering. It refers to the specific moment or condition under which an explosive reaction occurs, leading to a rapid release of energy. Understanding this point is essential for safety and efficiency in handling explosive materials. In many cases, the detonation point can be influenced by several factors, including temperature, pressure, and the chemical composition of the materials involved.In the realm of chemistry, for instance, when we discuss the detonation point, we are often referring to the threshold at which a chemical compound transforms from a stable state to an unstable one, resulting in an explosive reaction. This transformation is not merely a matter of chance; it is governed by strict scientific principles. For example, certain compounds require a specific amount of heat or pressure to reach their detonation point, while others may be more volatile and can explode with minimal provocation.From an engineering perspective, knowing the detonation point is vital for designing safe structures and systems that might encounter explosive materials. Engineers must calculate the detonation point to ensure that any potential explosions can be contained or mitigated effectively. This involves rigorous testing and modeling to predict how materials will behave under different conditions.Furthermore, in the context of military applications, understanding the detonation point can be a matter of life and death. The precision with which explosives are deployed can determine the success of a mission and the safety of personnel. Military engineers and strategists study the detonation point of various munitions to optimize their effectiveness while minimizing collateral damage.On a broader scale, the concept of a detonation point can also be metaphorically applied to social and political situations. Just as in chemistry, where a specific set of conditions leads to an explosion, in society, certain pressures can build up until they reach a detonation point. This could be seen in instances of civil unrest, where prolonged tension and dissatisfaction among a population can culminate in protests or riots.In conclusion, whether in the context of explosives, engineering, or social dynamics, the detonation point serves as a critical threshold that signifies a change from stability to instability. Recognizing and understanding this point allows us to navigate various challenges more effectively, ensuring safety and preparedness in both scientific and societal contexts. The study of the detonation point is not merely academic; it has real-world implications that affect our daily lives, from the safety of our buildings to the stability of our communities.

‘引爆点’的概念在多个领域中至关重要，特别是在物理和工程学中。它指的是发生爆炸反应的特定时刻或条件，从而导致能量的快速释放。理解这一点对安全和高效处理爆炸材料至关重要。在许多情况下，‘引爆点’可以受到温度、压力和所涉及材料的化学成分等多个因素的影响。例如，在化学领域，当我们讨论‘引爆点’时，通常是指化合物从稳定状态转变为不稳定状态的阈值，从而导致爆炸反应。这种转变不仅仅是偶然的，而是由严格的科学原理所支配。例如，某些化合物需要特定的热量或压力才能达到它们的‘引爆点’，而其他化合物可能更为易爆，甚至在最小的刺激下也会爆炸。从工程的角度来看，了解‘引爆点’对于设计可能接触到爆炸材料的安全结构和系统至关重要。工程师必须计算‘引爆点’，以确保任何潜在的爆炸都可以有效地被控制或减轻。这涉及到严格的测试和建模，以预测材料在不同条件下的行为。此外，在军事应用的背景下，了解‘引爆点’可能关乎生死。爆炸物的精确部署可以决定任务的成功与人员的安全。军事工程师和战略家研究各种弹药的‘引爆点’，以优化其有效性，同时最小化附带损害。在更广泛的层面上，‘引爆点’的概念也可以比喻性地应用于社会和政治情境。正如在化学中，特定条件会导致爆炸，在社会中，某些压力可能积累到达‘引爆点’。这可以在民事动乱的实例中看到，长期的紧张和对人群的不满可能最终导致抗议或骚乱。总之，无论是在爆炸物、工程学还是社会动态的背景下，‘引爆点’作为一个关键的阈值，标志着从稳定到不稳定的变化。识别和理解这一点使我们能够更有效地应对各种挑战，确保在科学和社会环境中的安全与准备。对‘引爆点’的研究不仅仅是学术性的；它具有影响我们日常生活的现实意义，从我们建筑的安全到我们社区的稳定。