liquid oxygen explosives
简明释义
液氧炸药
英英释义
例句
1.The researchers experimented with liquid oxygen explosives to enhance the efficiency of rocket propulsion.
研究人员尝试使用液氧炸药来提高火箭推进的效率。
2.The military uses liquid oxygen explosives for their high energy output in aerial bombardments.
军方在空中轰炸中使用液氧炸药,因为其能量输出高。
3.In the film, the villain planned to use liquid oxygen explosives to create a massive explosion.
在电影中,反派计划使用液氧炸药制造巨大的爆炸。
4.Safety protocols are crucial when handling liquid oxygen explosives in industrial applications.
在工业应用中,处理液氧炸药时安全协议至关重要。
5.Engineers must consider the volatility of liquid oxygen explosives when designing safety equipment.
工程师在设计安全设备时必须考虑液氧炸药的挥发性。
作文
The field of explosives is vast and complex, encompassing various types and compositions. Among these, liquid oxygen explosives stand out due to their unique properties and applications. 液氧炸药是指以液态氧为氧化剂的炸药,具有高能量密度和强大的爆炸威力。 Liquid oxygen, when cooled to extremely low temperatures, becomes a pale blue liquid that can serve as a powerful oxidizer. This characteristic makes it particularly useful in military and aerospace applications where traditional explosives may not provide the necessary performance. One of the primary advantages of liquid oxygen explosives is their ability to produce a high-energy reaction with relatively low amounts of fuel. When combined with suitable fuels, such as hydrocarbons, they create a highly energetic mixture that can be detonated to produce a significant explosive force. The efficiency of these explosives often surpasses that of conventional solid explosives, making them attractive for specific uses. In the military, liquid oxygen explosives are utilized in various munitions and weapons systems. Their high energy output allows for smaller payloads while still achieving the desired destructive capability. For instance, in missile technology, using liquid oxygen explosives can enhance the range and impact of the weapon, providing strategic advantages on the battlefield. Moreover, the aerospace industry has also found applications for liquid oxygen explosives. In rocket propulsion, liquid oxygen is commonly used as an oxidizer in combination with liquid fuels. This mixture is essential for creating the thrust needed to launch spacecraft into orbit. The understanding and control of liquid oxygen explosives are crucial for ensuring safety and efficiency in these high-stakes environments. Despite their advantages, working with liquid oxygen explosives poses significant risks. The handling of liquid oxygen requires strict safety protocols, as it is highly reactive and can cause fires or explosions if not managed properly. Additionally, the equipment used to store and transport these materials must be designed to withstand extremely low temperatures and high pressures. In conclusion, liquid oxygen explosives represent a fascinating area of study within the field of explosives. Their unique properties make them valuable in both military and aerospace applications, offering advantages in terms of energy output and efficiency. However, the risks associated with their use cannot be overlooked, necessitating careful handling and adherence to safety standards. As research continues into the development of new explosive materials and technologies, liquid oxygen explosives will likely remain a critical focus for scientists and engineers alike.
炸药领域广泛而复杂,涵盖了各种类型和成分。在这些炸药中,液氧炸药因其独特的性质和应用而脱颖而出。液氧炸药是指以液态氧为氧化剂的炸药,具有高能量密度和强大的爆炸威力。液氧在极低温度下变为淡蓝色液体,可以作为强有力的氧化剂。这一特性使其在军事和航空航天应用中尤为重要,因为传统炸药可能无法提供所需的性能。液氧炸药的主要优点之一是它们能够与相对少量的燃料产生高能反应。当与合适的燃料(如烃类)结合时,它们会形成一种高度能量化的混合物,可以引爆以产生显著的爆炸力量。这些炸药的效率往往超过传统固体炸药,这使得它们在特定用途上更具吸引力。在军事中,液氧炸药被用于各种弹药和武器系统。它们的高能输出允许使用较小的有效载荷,同时仍然实现所需的破坏能力。例如,在导弹技术中,使用液氧炸药可以增强武器的射程和冲击力,为战场提供战略优势。此外,航空航天工业也发现了液氧炸药的应用。在火箭推进中,液氧通常用作氧化剂,与液体燃料结合。这种混合物对于产生发射航天器进入轨道所需的推力至关重要。理解和控制液氧炸药对于确保安全和效率在这些高风险环境中尤为关键。尽管有其优势,处理液氧炸药也存在重大风险。液氧的处理需要严格的安全协议,因为它具有高度反应性,如果管理不当,可能导致火灾或爆炸。此外,用于储存和运输这些材料的设备必须设计成能够承受极低的温度和高压力。总之,液氧炸药代表了炸药领域内一个引人入胜的研究领域。它们独特的性质使其在军事和航空航天应用中具有价值,在能量输出和效率方面提供了优势。然而,与其使用相关的风险不可忽视,因此需要谨慎处理并遵循安全标准。随着对新型炸药材料和技术的研究不断深入,液氧炸药可能仍将是科学家和工程师关注的关键焦点。
相关单词
