undercomposed explosive

简明释义

未分解炸药

英英释义

例句

1.Engineers must be trained to identify an undercomposed explosive 未充分组成的爆炸物 before attempting any demolition work.

工程师必须接受培训，以识别未充分组成的爆炸物，然后才能进行任何拆除工作。

2.The military report indicated that the captured materials included an undercomposed explosive 未充分组成的爆炸物 that posed a risk.

军事报告指出，捕获的材料包括一种未充分组成的爆炸物，这构成了风险。

3.In the lab, we discovered that the mixture was an undercomposed explosive 未充分组成的爆炸物, requiring careful handling.

在实验室里，我们发现混合物是一种未充分组成的爆炸物，需要小心处理。

4.The film depicted a scenario where an undercomposed explosive 未充分组成的爆炸物 caused a massive explosion unexpectedly.

这部电影描绘了一个场景，其中一种未充分组成的爆炸物意外地引发了大规模爆炸。

5.The scientist explained that the device was an undercomposed explosive 未充分组成的爆炸物, which could lead to unpredictable results.

科学家解释说，设备是一种未充分组成的爆炸物，这可能导致不可预测的结果。

作文

In the realm of chemistry and materials science, the term undercomposed explosive refers to a type of explosive that has not reached its full potential in terms of composition and performance. This concept is pivotal in understanding how certain explosives can be optimized for better efficiency and safety. An undercomposed explosive may exhibit characteristics that make it less effective compared to fully composed counterparts, often leading to unpredictable behavior during detonation. The study of undercomposed explosives is crucial for various applications, including military operations, demolition, and mining. By analyzing the properties of these explosives, scientists and engineers can develop formulations that maximize energy output while minimizing risks. For instance, an undercomposed explosive might contain insufficient reactive materials or improper ratios of components, resulting in a less powerful explosion than intended.Moreover, understanding the limitations of undercomposed explosives can lead to significant advancements in safety protocols. In many cases, these explosives can be more sensitive to external stimuli, such as heat or shock, which poses a risk during storage and handling. Therefore, research into their composition helps in creating safer methods for their use and transportation.One notable example of an undercomposed explosive is certain formulations of ammonium nitrate-based explosives. When not properly mixed with fuel oil or other additives, the resulting product can be classified as undercomposed. This not only affects the explosive's power but also its stability. Understanding these nuances allows for better quality control in manufacturing processes, ensuring that explosives meet the required standards for both effectiveness and safety.Furthermore, the implications of undercomposed explosives extend beyond just the technical aspects. They also raise ethical questions about their use in warfare and construction. The potential for accidental detonations or misuse necessitates a thorough understanding of their properties. As such, researchers are continuously exploring ways to improve the formulation of explosives to avoid the pitfalls associated with being undercomposed.In conclusion, the study of undercomposed explosives is essential for enhancing the performance and safety of explosive materials. By focusing on the composition and potential improvements, we can ensure that explosives are used responsibly and effectively in various industries. This ongoing research not only aids in the development of better products but also contributes to a broader understanding of chemical reactions and material properties, ultimately benefiting society as a whole.

在化学和材料科学领域，术语未充分组成的炸药指的是一种未达到其在组成和性能方面的全部潜力的炸药。这一概念对于理解某些炸药如何优化以提高效率和安全性至关重要。与完全组成的炸药相比，未充分组成的炸药可能表现出使其在引爆时效果较差的特征，通常导致在引爆过程中出现不可预测的行为。对未充分组成的炸药的研究对于军事行动、拆除和采矿等各种应用至关重要。通过分析这些炸药的性质，科学家和工程师可以开发出最大限度地提高能量输出同时最小化风险的配方。例如，一种未充分组成的炸药可能含有不足的反应材料或不当的成分比例，导致爆炸的威力低于预期。此外，了解未充分组成的炸药的局限性可以带来安全协议的重大进展。在许多情况下，这些炸药对外部刺激（如热量或冲击）更为敏感，这在储存和处理过程中构成了风险。因此，对其成分的研究有助于创造更安全的使用和运输方法。一个显著的例子是某些基于硝酸铵的炸药配方。当没有与燃料油或其他添加剂正确混合时，所产生的产品可以被归类为未充分组成。这不仅影响炸药的威力，还影响其稳定性。理解这些细微差别有助于在制造过程中实现更好的质量控制，确保炸药达到所需的有效性和安全性标准。此外，未充分组成的炸药的影响不仅限于技术层面。它们还提出了关于在战争和建筑中使用它们的伦理问题。意外引爆或误用的潜在可能性需要对其性质进行彻底的理解。因此，研究人员不断探索改进炸药配方的方法，以避免与未充分组成相关的缺陷。总之，研究未充分组成的炸药对于增强炸药材料的性能和安全性至关重要。通过关注组成和潜在改进，我们可以确保在各个行业中负责任和有效地使用炸药。这项持续的研究不仅有助于更好产品的开发，还促进了对化学反应和材料属性的更广泛理解，最终使整个社会受益。