degaussing gear

简明释义

消磁装置

英英释义

例句

1.During a routine check, we discovered that the degaussing gear was malfunctioning.

在例行检查中，我们发现去磁设备出现了故障。

2.The naval ship was equipped with advanced degaussing gear to protect against magnetic mines.

这艘海军舰艇配备了先进的去磁设备以防止磁性水雷。

3.Before entering the combat zone, the crew performed maintenance on the degaussing gear.

在进入战斗区域之前，船员们对去磁设备进行了维护。

4.The degaussing gear is crucial for reducing the risk of underwater threats.

对于减少水下威胁的风险，去磁设备至关重要。

5.The degaussing gear must be calibrated regularly to ensure its effectiveness.

必须定期校准去磁设备以确保其有效性。

作文

Degaussing is a term that refers to the process of reducing or eliminating a magnetic field. In the context of naval operations, degaussing gear plays a crucial role in ensuring the safety and effectiveness of ships. This specialized equipment is designed to minimize the magnetic signature of naval vessels, making them less detectable to enemy mines and torpedoes that rely on magnetic fields for activation. The importance of degaussing gear cannot be overstated, especially in modern warfare where stealth and survivability are paramount.The concept of degaussing originated during World War II when it became evident that ships were at risk of being targeted by magnetic mines. These mines would detonate upon detecting the magnetic field generated by a ship's hull, leading to catastrophic consequences. To counter this threat, navies around the world began to develop degaussing gear systems that could effectively neutralize the magnetic fields produced by their vessels.Modern degaussing gear consists of a series of coils and sensors that are strategically placed around a ship’s hull. When activated, these coils generate an opposing magnetic field that cancels out the ship's own magnetic signature. This technology not only protects the ship from mines but also enhances its overall stealth capabilities. As a result, naval forces can operate more freely in contested waters without the constant fear of underwater threats.The operation of degaussing gear is not a one-time event; it requires regular maintenance and adjustments. Ships must undergo periodic calibrations to ensure that their degaussing gear is functioning optimally. This involves measuring the ship's magnetic signature and adjusting the settings of the equipment accordingly. The effectiveness of degaussing gear can vary based on several factors, including the size and construction materials of the vessel, as well as environmental conditions.In addition to its military applications, degaussing gear is also used in various civilian contexts. For example, large cargo ships and oil tankers may employ similar technologies to protect sensitive equipment from magnetic interference. Furthermore, research facilities that work with magnetic materials often utilize degaussing gear to maintain the integrity of their experiments.The future of degaussing gear technology is promising, with ongoing advancements aimed at improving its efficiency and effectiveness. Researchers are exploring new materials and designs that could enhance the performance of degaussing gear, making it even more difficult for adversaries to detect naval vessels. As the nature of warfare evolves, so too will the technologies that support it, ensuring that naval forces remain one step ahead of potential threats.In conclusion, degaussing gear is an essential component of modern naval warfare, providing ships with the means to reduce their magnetic signature and evade detection. Its development has significantly contributed to the safety and operational effectiveness of naval forces worldwide. As technology continues to advance, the role of degaussing gear will undoubtedly expand, further enhancing the capabilities of the modern navy and ensuring that they can navigate the complexities of contemporary maritime conflict with greater confidence and security.

去磁是指减少或消除磁场的过程。在海军作战中，去磁设备在确保船只的安全性和有效性方面发挥着至关重要的作用。这种专用设备旨在最小化海军舰艇的磁签名，使其对依赖磁场激活的敌方水雷和鱼雷的探测能力降低。去磁设备的重要性不容小觑，特别是在现代战争中，隐蔽性和生存能力至关重要。去磁的概念起源于第二次世界大战，当时人们意识到船只面临被磁性水雷锁定的风险。这些水雷会在探测到船体产生的磁场时引爆，导致灾难性的后果。为了应对这一威胁，各国海军开始开发能够有效中和舰艇磁场的去磁设备系统。现代的去磁设备由一系列线圈和传感器组成，这些设备被战略性地放置在船体周围。当激活时，这些线圈会产生一个相反的磁场，从而抵消船只自身的磁签名。这项技术不仅保护船只免受水雷的威胁，还增强了其整体隐蔽能力。因此，海军部队可以在争夺水域中更加自由地行动，而无需时刻担心水下威胁。去磁设备的操作并不是一次性的事件；它需要定期维护和调整。船只必须定期校准，以确保其去磁设备正常运作。这涉及到测量船只的磁签名，并相应地调整设备的设置。去磁设备的有效性可能会受到多种因素的影响，包括船只的大小、建造材料以及环境条件。除了军事应用外，去磁设备在各种民用场合也得到了应用。例如，大型货船和油轮可能会使用类似的技术来保护敏感设备免受磁干扰。此外，处理磁性材料的研究机构通常利用去磁设备来保持实验的完整性。去磁设备技术的未来前景广阔，正在进行持续的进步，以提高其效率和有效性。研究人员正在探索新材料和设计，以增强去磁设备的性能，使敌人更难以探测海军舰艇。随着战争性质的发展，支持战争的技术也将不断演变，确保海军力量始终领先于潜在威胁。总之，去磁设备是现代海军战争的重要组成部分，为舰船提供了减少磁签名和规避探测的手段。它的发展显著提升了全球海军力量的安全性和作战有效性。随着技术的不断进步，去磁设备的角色无疑将扩展，进一步增强现代海军的能力，确保他们能够更加自信和安全地应对当代海事冲突的复杂性。