mechanical mine

简明释义

机械水雷

英英释义

例句

1.During the training exercise, soldiers learned how to disarm a mechanical mine 机械地雷 safely.

在训练演习中，士兵们学习了如何安全地拆除机械地雷机械地雷。

2.Engineers are testing the durability of the mechanical mine 机械地雷 under extreme conditions.

工程师正在测试机械地雷机械地雷在极端条件下的耐久性。

3.The military deployed a new type of mechanical mine 机械地雷 that can be remotely activated.

军方部署了一种新的机械地雷机械地雷，可以远程激活。

4.The use of mechanical mines 机械地雷 in warfare has raised ethical concerns among humanitarian organizations.

人道主义组织对战争中使用机械地雷机械地雷提出了伦理担忧。

5.The mechanical mine 机械地雷 was designed to minimize collateral damage during operations.

该机械地雷机械地雷的设计旨在减少行动中的附带损害。

作文

In the realm of modern warfare and industrial applications, the term mechanical mine refers to a type of explosive device that is designed to detonate when triggered by a mechanical action. These devices are often used in military operations to deny access to certain areas or to protect strategic locations. The concept of a mechanical mine has evolved significantly over the years, reflecting advancements in technology and changes in warfare tactics.Historically, mines have been utilized for centuries, with their origins tracing back to ancient civilizations. However, the advent of the Industrial Revolution brought about a new era of warfare, where the development of more sophisticated explosives became possible. A mechanical mine typically consists of a casing filled with explosives, a triggering mechanism, and a means of activation, such as pressure plates or tripwires. This design allows for a wide range of deployment strategies, making them versatile tools on the battlefield.One of the primary advantages of a mechanical mine is its ability to remain dormant until triggered, which can create a psychological impact on enemy forces. Soldiers must constantly be aware of their surroundings, as the threat of hidden mines can instill fear and hesitation. This psychological warfare aspect can be just as effective as the physical destruction caused by the mines themselves.Moreover, mechanical mines can be employed in various terrains and environments, from urban settings to rural landscapes. Their adaptability makes them valuable assets for military strategists. For instance, in a conflict zone, a well-placed minefield can channel enemy movements into predictable paths, allowing defending forces to prepare for engagement more effectively.However, the use of mechanical mines is not without controversy. The long-term consequences of deploying such devices can be devastating, as unexploded mines pose significant risks to civilians long after conflicts have ended. Many countries and international organizations have called for stricter regulations and even bans on the use of landmines due to their lasting impact on civilian populations. The Mine Ban Treaty, which came into force in 1999, aims to eliminate the use of anti-personnel mines globally, highlighting the need for humanitarian considerations in warfare.In addition to military applications, the principles behind mechanical mines have also found their way into various industrial fields. For example, they can be used in mining operations to safely detonate explosives for excavation purposes. In this context, understanding the mechanics of a mechanical mine becomes crucial for ensuring safety and efficiency in operations. Engineers and technicians must carefully design these devices to minimize risks while maximizing their effectiveness in controlled environments.In conclusion, the term mechanical mine encompasses a complex and multifaceted concept that plays a significant role in both military and industrial contexts. While their effectiveness in warfare is undeniable, the ethical implications surrounding their use cannot be overlooked. As technology continues to advance, it is imperative that we balance the tactical advantages of mechanical mines with the humanitarian responsibilities we hold towards affected populations. Striving for innovative solutions that reduce harm while maintaining operational effectiveness should be a priority for future generations of engineers and military strategists alike.

在现代战争和工业应用领域，术语机械地雷指的是一种爆炸装置，旨在通过机械动作触发引爆。这些装置通常用于军事行动中，以阻止对某些区域的进入或保护战略位置。机械地雷的概念随着技术的进步和战争战术的变化而显著演变。历史上，地雷已经被使用了几个世纪，其起源可以追溯到古代文明。然而，工业革命的到来带来了战争的新纪元，使得更复杂的爆炸物开发成为可能。机械地雷通常由填充爆炸物的外壳、触发机制和激活手段（如压力板或绊线）组成。这种设计允许广泛的部署策略，使它们成为战场上多功能的工具。机械地雷的主要优点之一是它能够在被触发之前保持休眠状态，这可以对敌方部队造成心理影响。士兵必须时刻注意周围环境，因为隐藏地雷的威胁会造成恐惧和犹豫。这种心理战的方面可以与地雷本身造成的身体破坏同样有效。此外，机械地雷可以在各种地形和环境中使用，从城市环境到乡村景观。它们的适应性使其成为军事战略家宝贵的资产。例如，在冲突地区，精心放置的雷区可以将敌人的行动引导到可预测的路径，使防守部队能够更有效地准备交战。然而，使用机械地雷并非没有争议。部署此类装置的长期后果可能是毁灭性的，因为未爆炸的地雷在冲突结束后对平民构成重大风险。许多国家和国际组织呼吁对地雷的使用实施更严格的监管，甚至禁止使用地雷，因其对平民的持久影响。《地雷禁用条约》于1999年生效，旨在消除全球反人员地雷的使用，强调了战争中的人道主义考虑的重要性。除了军事应用，机械地雷背后的原理也已渗透到各个工业领域。例如，它们可以用于采矿操作中，以安全引爆爆炸物进行挖掘。在这种情况下，理解机械地雷的机制对于确保操作的安全性和效率至关重要。工程师和技术人员必须仔细设计这些装置，以最大限度地降低风险，同时提高其在受控环境中的有效性。总之，术语机械地雷涵盖了一个复杂且多面的概念，在军事和工业背景中发挥着重要作用。尽管它们在战争中的有效性不容忽视，但围绕其使用的伦理问题也不能被忽视。随着技术的不断进步，我们必须在机械地雷的战术优势与我们对受影响人群的人道责任之间取得平衡。努力寻找减少伤害而同时保持操作有效性的创新解决方案，应成为未来一代工程师和军事战略家的优先事项。