ammon dynamite

简明释义

硝安炸药

英英释义

例句

1.Safety protocols are crucial when handling ammon dynamite in mining operations.

在采矿作业中，处理铵炸药时安全协议至关重要。

2.Before using ammon dynamite, it is essential to conduct a risk assessment.

在使用铵炸药之前，进行风险评估是必不可少的。

3.The construction crew used ammon dynamite to break through the hard rock formations.

施工队使用铵炸药来突破坚硬的岩石层。

4.The effectiveness of ammon dynamite in construction makes it a preferred choice for engineers.

由于其在建筑中的有效性，铵炸药成为工程师的首选。

5.The use of ammon dynamite has revolutionized the way we approach large-scale demolition projects.

使用铵炸药彻底改变了我们对大型拆除项目的处理方式。

作文

In the world of explosives, few substances have had as significant an impact as ammon dynamite. This powerful explosive is primarily made from ammonium nitrate and a fuel source, which together create a highly effective blasting agent. The invention of ammon dynamite revolutionized the construction and mining industries, allowing for more efficient excavation and demolition processes. Its development can be traced back to the late 19th century when scientists sought to create a safer alternative to nitroglycerin-based explosives. The result was a stable and less sensitive compound that could be handled with greater ease.

One of the most notable features of ammon dynamite is its versatility. It can be used in various applications, from large-scale mining operations to smaller construction projects. The ability to tailor its formulation allows engineers to optimize its performance based on specific needs. For instance, by adjusting the ratio of ammonium nitrate to fuel oil, the explosive's detonation velocity and strength can be modified, making it suitable for different types of rock or soil conditions.

However, with great power comes great responsibility. The use of ammon dynamite requires strict adherence to safety protocols to prevent accidents. Improper handling or storage can lead to disastrous consequences, including unintended detonations. Therefore, training and education are crucial for those who work with this explosive material. Organizations involved in its production and use must ensure that all personnel are well-informed about the risks and proper procedures associated with ammon dynamite.

Moreover, the environmental impact of using explosives like ammon dynamite is a growing concern. While it has enabled significant advancements in construction and mining, the resulting vibrations and shock waves can affect surrounding ecosystems. Careful planning and monitoring are necessary to mitigate these impacts. For instance, using controlled blasting techniques can minimize disruption to nearby wildlife and habitats.

In conclusion, ammon dynamite stands as a testament to human ingenuity in the field of explosives. Its development has transformed industries and facilitated numerous engineering feats. However, the responsibility that comes with its use cannot be overlooked. As we continue to explore new technologies and methods in construction and mining, the lessons learned from the use of ammon dynamite remind us of the importance of safety, environmental stewardship, and the need for ongoing education in the field of explosives.

在爆炸物的世界中，少有物质能像氨炸药那样产生如此重要的影响。这种强大的爆炸物主要由硝酸铵和燃料源组成，两者结合形成了一种高效的爆破剂。氨炸药的发明彻底改变了建筑和采矿行业，使得挖掘和拆除过程更加高效。其发展可以追溯到19世纪末，当时科学家们寻求创造一种比硝化甘油炸药更安全的替代品。最终的结果是一个更稳定且不易敏感的化合物，可以更轻松地处理。

氨炸药最显著的特点之一是其多功能性。它可以用于各种应用，从大规模的采矿作业到较小的建筑项目。根据特定需求调整其配方的能力使工程师能够优化其性能。例如，通过调整硝酸铵与燃料油的比例，可以修改爆炸物的爆炸速度和强度，使其适合不同类型的岩石或土壤条件。

然而，强大的力量伴随着巨大的责任。使用氨炸药需要严格遵守安全协议，以防止事故的发生。不当处理或储存可能导致灾难性的后果，包括意外引爆。因此，培训和教育对于那些与这种爆炸材料打交道的人至关重要。参与其生产和使用的组织必须确保所有人员都充分了解与氨炸药相关的风险和正确程序。

此外，使用像氨炸药这样的爆炸物对环境的影响也是一个日益关注的问题。虽然它促进了建筑和采矿领域的重大进展，但随之而来的震动和冲击波可能会影响周围的生态系统。为了减轻这些影响，需要进行仔细的规划和监测。例如，使用控制爆破技术可以最大限度地减少对附近野生动物和栖息地的干扰。

总之，氨炸药是人类在爆炸物领域创造力的见证。它的发展改变了各个行业，促进了无数工程壮举。然而，使用它所带来的责任不能被忽视。在我们继续探索建筑和采矿领域的新技术和方法时，使用氨炸药所吸取的教训提醒我们安全、环境管理的重要性，以及在爆炸物领域持续教育的必要性。