trinitrotoluene equivalent

简明释义

三硝基甲苯当量

英英释义

例句

1.The explosive yield of this new compound is measured in terms of its trinitrotoluene equivalent.

这种新化合物的爆炸威力是以其三硝基甲苯当量来衡量的。

2.For demolition projects, engineers often specify the trinitrotoluene equivalent needed for effective results.

在拆除项目中，工程师通常会指定所需的三硝基甲苯当量以获得有效结果。

3.In military applications, understanding the trinitrotoluene equivalent helps in assessing the potential damage of explosives.

在军事应用中，理解三硝基甲苯当量有助于评估爆炸物的潜在破坏力。

4.When designing a safety protocol, it's crucial to calculate the trinitrotoluene equivalent of stored explosives.

在设计安全协议时，计算储存爆炸物的三硝基甲苯当量至关重要。

5.The laboratory reported that the new formulation had a trinitrotoluene equivalent of 1.5 times that of traditional explosives.

实验室报告称，新配方的三硝基甲苯当量是传统爆炸物的1.5倍。

作文

The term trinitrotoluene equivalent refers to a measure used in explosives and ordnance to quantify the energy output of a particular explosive relative to that of trinitrotoluene (TNT). TNT has been widely used as a standard for measuring the explosive power of other materials due to its stability, availability, and well-understood properties. The trinitrotoluene equivalent is crucial in various fields, including military applications, construction, and demolition, where controlled explosions are necessary.When discussing explosives, it is essential to understand that different materials release energy at different rates and magnitudes. The trinitrotoluene equivalent allows engineers and military personnel to compare the effectiveness and safety of different explosives. For instance, if an explosive is said to have a trinitrotoluene equivalent of 1.5, this means that it produces 1.5 times the explosive energy of TNT when detonated. This comparison is vital for selecting the appropriate material for specific tasks, ensuring both efficacy and safety.In military operations, the trinitrotoluene equivalent is particularly significant. When planning a mission that involves the use of explosives, military strategists must assess the potential impact of the chosen explosives. By using the trinitrotoluene equivalent, they can predict the blast radius, the potential for collateral damage, and the overall effectiveness against targets. This understanding helps in making informed decisions about which explosives to deploy in various combat scenarios.Moreover, in the field of construction and demolition, the trinitrotoluene equivalent plays a critical role. Engineers must ensure that the explosives they use will achieve the desired results without causing unintended damage to surrounding structures. By calculating the trinitrotoluene equivalent, they can determine the right amount of explosive needed to safely and effectively demolish a building or clear a site. This precision is vital in urban environments, where safety and compliance with regulations are paramount.In addition to its practical applications, understanding the trinitrotoluene equivalent also highlights the importance of safety protocols in handling explosives. Each explosive material has its own characteristics, and knowing how it compares to TNT allows for better risk assessment and management. Training personnel in the implications of the trinitrotoluene equivalent ensures that they are equipped to handle explosives responsibly and effectively.In conclusion, the concept of trinitrotoluene equivalent is a fundamental aspect of explosive engineering and application. Whether in military operations or construction projects, it provides a standardized way to evaluate and compare the power of different explosives. This measure not only enhances operational efficiency but also prioritizes safety, which is paramount in any scenario involving explosive materials. As technology advances and new materials are developed, the relevance of the trinitrotoluene equivalent will continue to be an essential consideration in the field of explosives.

术语三硝基甲苯当量是指在爆炸物和军械中用于量化特定爆炸物的能量输出相对于三硝基甲苯（TNT）的标准。由于TNT的稳定性、可获得性和良好的特性，它被广泛用作测量其他材料爆炸力的标准。三硝基甲苯当量在军事应用、建筑和拆除等多个领域中至关重要，这些领域需要控制爆炸。在讨论爆炸物时，理解不同材料以不同速率和幅度释放能量是至关重要的。三硝基甲苯当量使工程师和军方人员能够比较不同爆炸物的有效性和安全性。例如，如果一种爆炸物的三硝基甲苯当量为1.5，这意味着它在爆炸时产生的能量是TNT的1.5倍。这种比较对于选择特定任务合适的材料至关重要，确保效率和安全。在军事行动中，三硝基甲苯当量尤其重要。当计划涉及使用爆炸物的任务时，军事战略家必须评估所选爆炸物的潜在影响。通过使用三硝基甲苯当量，他们可以预测爆炸半径、对附带损害的潜力以及针对目标的总体有效性。这种理解有助于在各种战斗场景中做出明智的决策，选择合适的爆炸物。此外，在建筑和拆除领域，三硝基甲苯当量也发挥着关键作用。工程师必须确保他们使用的爆炸物能够达到预期效果，而不会对周围结构造成意外损害。通过计算三硝基甲苯当量，他们可以确定需要使用的爆炸物的正确数量，以安全有效地拆除建筑或清理现场。这种精确性在城市环境中至关重要，因为安全和遵守法规是最重要的。除了实际应用，理解三硝基甲苯当量还突显了在处理爆炸物时安全协议的重要性。每种爆炸材料都有其自身的特性，了解它与TNT的比较有助于更好地进行风险评估和管理。培训人员了解三硝基甲苯当量的含义，确保他们具备负责任和有效处理爆炸物的能力。总之，三硝基甲苯当量的概念是爆炸工程和应用的基本方面。无论是在军事行动还是建筑项目中，它提供了一种标准化的方法来评估和比较不同爆炸物的威力。这个测量不仅提高了操作效率，还优先考虑安全，这是涉及爆炸材料的任何情况中的首要任务。随着技术的进步和新材料的发展，三硝基甲苯当量的相关性将在爆炸物领域继续成为一个重要的考虑因素。