fully contained explosion

简明释义

全封闭式爆炸

英英释义

例句

1.Firefighters were trained to handle situations involving a fully contained explosion to minimize risks during chemical spills.

消防员接受过处理涉及完全封闭的爆炸的情况的培训，以最小化化学泄漏期间的风险。

2.During the test, the engineers observed a fully contained explosion within the chamber, confirming the integrity of the containment system.

在测试期间，工程师们观察到一个完全封闭的爆炸发生在密闭舱内，确认了封闭系统的完整性。

3.The safety protocols ensured that the chemical reaction resulted in a fully contained explosion, preventing any harm to the surrounding areas.

安全协议确保了化学反应导致了一个完全封闭的爆炸，防止了对周围区域的任何伤害。

4.The laboratory's state-of-the-art equipment allowed for a fully contained explosion without any external damage.

实验室的尖端设备允许发生完全封闭的爆炸而不会造成任何外部损害。

5.The design of the reactor was crucial to ensure a fully contained explosion in case of an emergency.

反应堆的设计对于确保在紧急情况下发生完全封闭的爆炸至关重要。

作文

In the realm of physics and engineering, the concept of a fully contained explosion plays a crucial role in understanding how energy is released and managed. A fully contained explosion refers to an explosion that occurs within a confined space, where all the explosive materials are contained and the energy is directed in a controlled manner. This phenomenon can be observed in various applications, ranging from industrial processes to safety mechanisms in vehicles. One of the most significant advantages of a fully contained explosion is its ability to minimize the risk of collateral damage. For instance, in the field of demolition, controlled explosions are utilized to bring down buildings safely. Engineers design explosives that create a fully contained explosion to ensure that the force is directed inward, causing the structure to collapse on itself rather than outward, which could endanger nearby structures and people. Moreover, the concept of a fully contained explosion is also critical in the automotive industry, particularly in the deployment of airbags. When a car crashes, the airbag system triggers a chemical reaction that results in a fully contained explosion of gas, inflating the airbag in milliseconds. This controlled explosion is essential for protecting passengers from injury, as it absorbs the impact of the collision. The design of the airbag ensures that the explosion is contained within the system, allowing for rapid inflation without causing harm to the occupants. In addition to safety applications, a fully contained explosion is also a key principle in energy generation. For example, in nuclear reactors, fission reactions can lead to a release of energy that must be carefully controlled. Engineers strive to achieve a fully contained explosion of energy, ensuring that the reaction remains stable and contained within the reactor core. This containment is vital for preventing catastrophic failures and ensuring the safe operation of nuclear power plants. However, achieving a fully contained explosion requires meticulous planning and execution. Engineers must consider various factors, including the type of materials used, the configuration of the containment vessel, and the potential consequences of the explosion. Failure to adequately contain an explosion can lead to disastrous outcomes, as seen in industrial accidents where explosions have escaped containment, resulting in loss of life and property damage. In conclusion, the concept of a fully contained explosion is integral to various fields, including demolition, automotive safety, and energy generation. By understanding and harnessing the principles behind a fully contained explosion, engineers can create safer systems and technologies that protect lives and enhance operational efficiency. As we continue to advance in science and technology, the importance of mastering the dynamics of a fully contained explosion will only grow, paving the way for innovations that prioritize safety and control in potentially hazardous situations.

在物理和工程领域，完全封闭的爆炸这一概念在理解能量如何释放和管理方面起着至关重要的作用。完全封闭的爆炸是指在一个封闭空间内发生的爆炸，其中所有爆炸材料都被封闭，能量以受控的方式释放。这种现象可以在各种应用中观察到，从工业过程到汽车的安全机制。完全封闭的爆炸最显著的优势之一是能够最小化附带损害的风险。例如，在拆除领域，控制爆炸被用来安全地拆除建筑物。工程师设计爆炸物以产生完全封闭的爆炸，确保力量向内方向释放，使结构向内倒塌，而不是向外，这可能会危及附近的建筑物和人员。此外，完全封闭的爆炸的概念在汽车工业中也至关重要，特别是在气囊的部署中。当汽车发生碰撞时，气囊系统触发化学反应，导致气体的完全封闭的爆炸，在毫秒内充气。这个控制的爆炸对于保护乘客免受伤害至关重要，因为它吸收了碰撞的冲击。气囊的设计确保爆炸被封闭在系统内部，实现快速充气而不对乘员造成伤害。除了安全应用之外，完全封闭的爆炸还是能源生成中的关键原则。例如，在核反应堆中，裂变反应可能导致能量释放，必须谨慎控制。工程师努力实现能量的完全封闭的爆炸，确保反应保持稳定并被封闭在反应堆核心内。这种封闭对于防止灾难性故障和确保核电站的安全运行至关重要。然而，实现完全封闭的爆炸需要精心的规划和执行。工程师必须考虑各种因素，包括所使用材料的类型、容器的配置以及爆炸的潜在后果。如果未能充分封闭爆炸，可能导致灾难性的结果，例如工业事故中爆炸逃逸封闭，造成生命和财产损失。总之，完全封闭的爆炸的概念在拆除、汽车安全和能源生成等多个领域中不可或缺。通过理解和利用完全封闭的爆炸背后的原理，工程师能够创造出更安全的系统和技术，以保护生命并提高操作效率。随着我们在科学和技术上的不断进步，掌握完全封闭的爆炸的动态将变得愈加重要，为优先考虑安全和控制潜在危险情况的创新铺平道路。