armor plate

简明释义

防弹钢板

英英释义

例句

1.Firefighters wear suits with armor plates to protect themselves from extreme heat.

消防员穿着带有装甲板的服装，以保护自己免受极端高温的伤害。

2.During the construction of the bunker, the engineers decided to use steel armor plate for added security.

在掩体的建设过程中，工程师们决定使用钢制的装甲板以增加安全性。

3.The tank's armor plate was designed to withstand high-caliber bullets.

坦克的装甲板被设计成能够抵御高口径子弹。

4.The military vehicle was equipped with an extra layer of armor plate to enhance its protection against enemy fire.

这辆军用车辆配备了额外一层装甲板以增强其抵御敌火的能力。

5.In the design of the new drone, engineers incorporated lightweight armor plates to protect sensitive equipment.

在新无人机的设计中，工程师们加入了轻质的装甲板来保护敏感设备。

作文

In the world of military technology, the term armor plate refers to a protective layer that is designed to shield vehicles and personnel from various forms of attack. These plates are typically made from materials such as steel, aluminum, or composite materials that can withstand high-velocity projectiles and explosive blasts. The effectiveness of an armor plate lies in its ability to absorb and dissipate energy from incoming threats, thereby reducing the risk of injury or destruction. Historically, the development of armor plates has evolved significantly. During World War I, for instance, the first tanks were equipped with rudimentary armor that provided minimal protection against small arms fire. As warfare progressed, so did the technology behind armor plates. By World War II, advancements in metallurgy allowed for thicker and more resilient plates, which could withstand heavier artillery and anti-tank weapons. This evolution continued into the modern era, where the introduction of lightweight composite materials has revolutionized the design of armor plates. Today, armor plates are not only used in military applications but also in civilian contexts, such as law enforcement and personal protection. For instance, police officers often wear ballistic vests that incorporate armor plates to safeguard against gunfire during dangerous operations. Similarly, private security personnel may utilize armored vehicles fitted with armor plates to ensure their safety while transporting valuable assets or individuals in high-risk areas. The manufacturing process of armor plates is intricate and requires meticulous attention to detail. Engineers must consider various factors, including the intended use of the plate, the types of threats it will face, and the weight restrictions of the vehicle or equipment it will be mounted on. Advanced testing methods are employed to ensure that each armor plate meets stringent safety standards. This includes ballistic testing, where the plates are subjected to live-fire scenarios to assess their performance against different calibers and velocities. Furthermore, the design of armor plates is continuously being improved through research and innovation. New technologies, such as reactive armor and active protection systems, have emerged to enhance the defensive capabilities of armored vehicles. Reactive armor, for example, is designed to explode outward when struck, counteracting the force of incoming projectiles. Active protection systems utilize sensors and interceptors to detect and neutralize threats before they can impact the vehicle. These advancements highlight the ongoing arms race between offensive and defensive technologies in modern warfare. In conclusion, the concept of armor plate represents a critical aspect of defense in both military and civilian contexts. Its evolution over the years reflects the changing nature of warfare and the continuous pursuit of safety and protection. As technology advances, we can expect further innovations in armor plates, ensuring that they remain a vital component in safeguarding lives and assets in an increasingly dangerous world.

在军事技术领域，术语装甲板指的是一种保护层，旨在保护车辆和人员免受各种攻击。这些板通常由钢、铝或复合材料等材料制成，能够承受高速射弹和爆炸冲击。装甲板的有效性在于其吸收和分散来自来袭威胁的能量，从而降低受伤或被摧毁的风险。历史上，装甲板的发展经历了显著的演变。例如，在第一次世界大战期间，第一批坦克配备了基本的装甲，提供对小口径火器的最小保护。随着战争的发展，装甲板背后的技术也在不断进步。到第二次世界大战时，冶金学的进步使得可以使用更厚、更坚韧的装甲板，能够抵御更重的炮火和反坦克武器。这一演变持续到现代，轻质复合材料的引入彻底改变了装甲板的设计。如今，装甲板不仅用于军事应用，也在民用领域中被广泛使用，例如执法和个人保护。例如，警察通常穿着包含装甲板的防弹背心，以在危险行动中保护自己免受枪火的伤害。同样，私人保安人员可能会利用装有装甲板的装甲车辆，以确保在高风险地区运输贵重资产或个人时的安全。装甲板的制造过程复杂，需要仔细关注每一个细节。工程师必须考虑多个因素，包括板的预期用途、将面临的威胁类型以及其安装在车辆或设备上的重量限制。采用先进的测试方法以确保每个装甲板符合严格的安全标准。这包括弹道测试，在此过程中，装甲板会在实弹场景中进行测试，以评估其对不同口径和速度的表现。此外，装甲板的设计也在通过研究和创新不断得到改善。新技术，如反应装甲和主动防护系统，已经出现，以增强装甲车辆的防御能力。例如，反应装甲旨在受到撞击时向外爆炸，以抵消来袭弹药的力量。主动防护系统利用传感器和拦截器探测并中和威胁，防止其影响车辆。这些进步突显出现代战争中进攻与防御技术之间的持续军备竞赛。总之，装甲板的概念代表了军事和民用领域防御的重要方面。它多年来的演变反映了战争性质的变化以及对安全和保护的持续追求。随着技术的进步，我们可以期待装甲板进一步创新，确保它们在日益危险的世界中仍然是保护生命和资产的重要组成部分。