high density explosive
简明释义
高密度炸药
英英释义
A type of explosive material that has a high mass per unit volume, allowing for a greater amount of energy to be released in a smaller space. | 一种具有高单位体积质量的爆炸材料,允许在较小的空间内释放更多的能量。 |
例句
1.Safety protocols must be followed when handling high density explosive 高密度炸药 to prevent accidents.
处理高密度炸药 high density explosive时必须遵循安全协议以防止事故发生。
2.In mining operations, high density explosive 高密度炸药 is essential for breaking rock efficiently.
在采矿作业中,高密度炸药 high density explosive对于高效破碎岩石至关重要。
3.The military often uses high density explosive 高密度炸药 for demolishing fortified structures.
军方常使用高密度炸药 high density explosive来摧毁坚固的建筑物。
4.Research into high density explosive 高密度炸药 formulations continues to enhance performance in military applications.
对高密度炸药 high density explosive配方的研究持续提升军事应用中的性能。
5.The use of high density explosive 高密度炸药 can significantly reduce the amount of material needed for demolition.
使用高密度炸药 high density explosive可以显著减少拆除所需的材料量。
作文
High-density explosives (HDEs) are a crucial component in various fields, including military applications, mining, and demolition. These materials are characterized by their ability to produce a significant amount of energy from a relatively small volume. This property makes high density explosive (高密度炸药) an attractive option for tasks that require powerful blasts without the need for large quantities of material. The science behind HDEs involves complex chemical reactions that release energy rapidly, resulting in a shock wave that can effectively break apart rock or cause destruction in a targeted area.In military contexts, high density explosive (高密度炸药) is used in ordnance such as bombs, shells, and warheads. The effectiveness of these explosives is often measured by their ability to penetrate armor and create devastating effects on enemy targets. For instance, modern warfare has seen the development of precision-guided munitions that utilize HDEs to maximize lethality while minimizing collateral damage. This advancement highlights the importance of understanding the properties and behaviors of high density explosive (高密度炸药) materials, as they play a significant role in strategic military operations.In the mining industry, high density explosive (高密度炸药) is employed to fragment rock efficiently. The goal is to optimize the extraction of valuable minerals while ensuring safety and minimizing environmental impact. The use of HDEs allows miners to achieve better fragmentation with fewer detonations, which can lead to reduced operational costs and increased productivity. However, the handling and use of these explosives require strict adherence to safety protocols to prevent accidents and ensure the well-being of workers.Demolition projects also benefit from high density explosive (高密度炸药). Controlled demolitions utilize these explosives to bring down structures in a safe and efficient manner. Engineers carefully calculate the amount and placement of HDEs to ensure that the building collapses inward, reducing the risk of damage to surrounding areas. This precision is vital in urban environments where space is limited, and safety is paramount.Despite their advantages, the use of high density explosive (高密度炸药) comes with challenges. The production and storage of these materials are heavily regulated due to their potential for misuse and the inherent dangers they pose. Additionally, there is an ongoing need for research to develop safer and more effective HDEs that can meet the demands of various industries while minimizing risks to human life and the environment.In conclusion, high density explosive (高密度炸药) plays a significant role in many sectors, providing powerful solutions for military, mining, and demolition applications. Understanding the science behind these materials, along with their benefits and risks, is essential for professionals working in these fields. As technology continues to advance, the future of HDEs may hold even more innovative applications, further enhancing their effectiveness and safety in various uses.
高密度炸药(HDE)是许多领域的重要组成部分,包括军事应用、采矿和拆除。这些材料的特点是能够从相对较小的体积中产生大量能量。这一特性使得高密度炸药(高密度炸药)成为在需要强大爆炸而不需要大量材料的任务中的一个有吸引力的选择。HDE背后的科学涉及复杂的化学反应,这些反应迅速释放能量,产生冲击波,可以有效地破碎岩石或在目标区域造成破坏。在军事背景下,高密度炸药(高密度炸药)用于弹药,如炸弹、炮弹和战斗部。这些炸药的有效性通常通过其穿透装甲和对敌方目标造成破坏的能力来衡量。例如,现代战争中已经开发出利用HDE的精确制导弹药,以最大化致命性,同时最小化附带损害。这一进展突显了理解高密度炸药(高密度炸药)材料的性质和行为的重要性,因为它们在战略军事行动中发挥着重要作用。在采矿行业中,高密度炸药(高密度炸药)用于有效地破碎岩石。目标是优化有价值矿物的提取,同时确保安全并最小化环境影响。使用HDE可以使矿工以更少的爆破实现更好的破碎,这可能导致降低运营成本和提高生产率。然而,这些炸药的处理和使用需要严格遵守安全协议,以防止事故并确保工人的福祉。拆除项目也受益于高密度炸药(高密度炸药)。控制拆除利用这些炸药以安全高效的方式拆除建筑物。工程师仔细计算HDE的数量和位置,以确保建筑物向内坍塌,减少对周围地区的损害风险。这种精确性在城市环境中至关重要,因为空间有限,安全至关重要。尽管有其优势,使用高密度炸药(高密度炸药)也面临挑战。这些材料的生产和储存受到严格监管,因为它们可能被滥用,并且存在固有的危险。此外,仍然需要进行研究,以开发更安全、更有效的HDE,满足各行业的需求,同时最小化对人类生命和环境的风险。总之,高密度炸药(高密度炸药)在许多领域发挥着重要作用,为军事、采矿和拆除应用提供强大的解决方案。了解这些材料背后的科学以及它们的好处和风险,对于在这些领域工作的专业人士至关重要。随着技术的不断进步,HDE的未来可能会有更多创新应用,进一步增强其在各种用途中的有效性和安全性。
相关单词
