detonating signal

简明释义

爆响信号

英英释义

例句

1.During the test, the detonating signal (引爆信号) was sent to initiate the controlled explosion.

在测试期间，detonating signal (引爆信号) 被发送以启动受控爆炸。

2.The military uses a specific detonating signal (引爆信号) to ensure precision in their operations.

军方使用特定的detonating signal (引爆信号) 来确保操作的精确性。

3.In mining, the detonating signal (引爆信号) must be carefully timed to avoid accidents.

在采矿中，detonating signal (引爆信号) 必须仔细计时以避免事故。

4.The engineer explained that the detonating signal (引爆信号) is crucial for safely triggering the explosives in the construction site.

工程师解释说，detonating signal (引爆信号) 对于安全触发建筑工地的炸药至关重要。

5.The safety protocol requires that all personnel are clear of the area before the detonating signal (引爆信号) is given.

安全协议要求在发出detonating signal (引爆信号) 前，所有人员必须离开该区域。

作文

In the realm of physics and engineering, the term detonating signal refers to a specific trigger that initiates an explosive reaction. Understanding this concept is crucial for those involved in fields such as demolition, military operations, and even in certain scientific research areas. The detonating signal serves as a catalyst that transforms potential energy into kinetic energy, resulting in a rapid release of energy. This can lead to various applications, from controlled demolitions of buildings to military ordnance deployment. To illustrate the importance of a detonating signal, consider the process of controlled demolition. Engineers meticulously plan the sequence of detonations to ensure that structures collapse in a safe and predictable manner. The detonating signal in this context is often a precisely timed electrical impulse that activates explosives placed at critical points in the structure. By carefully calculating the timing and placement of these signals, engineers can minimize the risk to surrounding areas and ensure the safety of bystanders. Moreover, in military applications, the detonating signal plays a vital role in the effectiveness of munitions. Whether it is a bomb, grenade, or missile, the reliability of the detonating signal is paramount. A failure in this signal could result in a dud, rendering the weapon ineffective and potentially dangerous if mishandled. Therefore, extensive testing and quality control measures are implemented to ensure that every component, including the detonating signal, functions as intended. In scientific research, particularly in the study of explosives and materials science, understanding the dynamics of a detonating signal can lead to advancements in safer explosives and more efficient energy release methods. Researchers analyze how different materials respond to various types of detonating signals, which can lead to innovations in both civilian and military applications. This knowledge is critical in developing new technologies that can harness explosive reactions for beneficial purposes, such as propulsion systems in aerospace engineering. However, with the power of a detonating signal comes great responsibility. The potential for misuse in criminal activities, such as terrorism, highlights the need for stringent regulations and oversight in the handling and storage of explosive materials. Authorities must ensure that only trained professionals have access to the knowledge and tools necessary to create and deploy detonating signals. In conclusion, the concept of a detonating signal is multifaceted and deeply embedded in various industries. Its implications extend beyond mere physics; they touch upon safety, ethics, and technological advancement. As we continue to explore the boundaries of science and engineering, the understanding of detonating signals will remain a cornerstone in ensuring that explosive reactions can be harnessed safely and effectively for the benefit of society.

在物理和工程领域，术语detonating signal指的是启动爆炸反应的特定触发器。理解这一概念对于参与拆除、军事行动甚至某些科学研究领域的人来说至关重要。detonating signal作为催化剂，将潜在能量转化为动能，导致能量的快速释放。这可以导致多种应用，从建筑物的受控拆除到军事弹药的部署。为了说明detonating signal的重要性，可以考虑受控拆除的过程。工程师精心计划爆炸的顺序，以确保结构以安全和可预测的方式倒塌。在这种情况下，detonating signal通常是一个精确计时的电信号，激活放置在结构关键点的炸药。通过仔细计算这些信号的时机和位置，工程师可以最大限度地减少对周围区域的风险，并确保旁观者的安全。此外，在军事应用中，detonating signal在弹药的有效性中发挥着至关重要的作用。无论是炸弹、手榴弹还是导弹，detonating signal的可靠性都是至关重要的。该信号的失败可能导致未爆炸的弹药，使武器失效，并且如果处理不当，可能会造成危险。因此，实施了广泛的测试和质量控制措施，以确保每个组件，包括detonating signal，按预期功能运行。在科学研究中，特别是在爆炸物和材料科学的研究中，理解detonating signal的动态变化可以促使更安全的爆炸物和更高效的能量释放方法的进步。研究人员分析不同材料如何响应各种类型的detonating signal，这可以促进民用和军事应用的创新。这一知识对于开发能够利用爆炸反应带来有益用途的新技术至关重要，例如航天工程中的推进系统。然而，伴随着detonating signal的力量，责任重大。其在犯罪活动中的误用潜力，如恐怖主义，突显出在处理和存储爆炸材料方面需要严格的监管和监督。有关当局必须确保只有经过培训的专业人员才能接触到创建和部署detonating signal所需的知识和工具。总之，detonating signal的概念是多方面的，深深植根于各个行业。它的影响超越了纯粹的物理学，涉及到安全、伦理和技术进步。随着我们继续探索科学和工程的边界，对detonating signal的理解将始终是确保爆炸反应能够安全有效地被利用于社会利益的基石。