degaussing range

简明释义

消磁观测场

英英释义

例句

1.The research team studied the effects of different frequencies in the degaussing range 去磁范围 on various types of metal.

研究小组研究了不同频率在去磁范围 degaussing range对各种金属的影响。

2.The military base has a designated degaussing range 去磁范围 to ensure that all naval vessels are properly degaussed before deployment.

军事基地设有专门的去磁范围 degaussing range，以确保所有海军舰艇在部署前都经过适当的去磁处理。

3.The ship's crew was trained on how to operate the degaussing range 去磁范围 effectively to minimize magnetic signatures.

船员接受了如何有效操作去磁范围 degaussing range的培训，以尽量减少磁性特征。

4.During the maintenance check, technicians must verify that the degaussing range 去磁范围 is functioning correctly.

在维护检查期间，技术人员必须验证去磁范围 degaussing range是否正常运作。

5.Before entering hostile waters, the submarine underwent a thorough degaussing range 去磁范围 procedure.

在进入敌对水域之前，潜艇进行了彻底的去磁范围 degaussing range程序。

作文

In the realm of technology and engineering, there are numerous terms that may seem obscure to the layperson. One such term is degaussing range, which refers to a specific area or distance from a magnetic field source where the effects of magnetic interference can be minimized or eliminated. This concept is particularly important in naval operations, where ships must reduce their magnetic signature to avoid detection by enemy mines or torpedoes. The process of degaussing involves using electrical coils to generate a magnetic field that counteracts the unwanted magnetic field produced by the ship's metal components. Understanding the significance of degaussing range requires some background knowledge of magnetism and its implications in military strategy. When a ship is constructed, its hull and other metal parts become magnetized due to the Earth's magnetic field and the processes involved in manufacturing. This magnetization can make the vessel more susceptible to magnetic mines, which are designed to detonate when they sense a certain magnetic signature. Therefore, it is crucial for naval vessels to undergo degaussing procedures to ensure they operate within a safe degaussing range. The degaussing range varies depending on several factors, including the size of the vessel, the materials used in its construction, and the strength of the magnetic field it generates. Ships equipped with advanced degaussing systems can significantly reduce their magnetic signature, effectively expanding their operational capabilities while minimizing the risk of detection. This is especially vital during stealth missions where maintaining a low profile is essential for success. Moreover, the concept of degaussing range is not limited to naval applications; it also has implications in various fields such as data security and electronics. In the context of data storage, degaussing is used to erase data from magnetic media by disrupting the magnetic fields that encode the information. This process is critical for organizations that handle sensitive information and need to ensure that data is irretrievable. Understanding the degaussing range in this context means recognizing how far the effects of a degaussing tool can effectively reach, ensuring complete data destruction. In conclusion, the term degaussing range encompasses a range of applications from military to data security. Its importance lies in the ability to mitigate risks associated with magnetic signatures, whether it be in preventing detection by enemies or ensuring data privacy. As technology continues to evolve, so too will the methods and tools employed to manage magnetic fields and their effects. Therefore, grasping the concept of degaussing range is essential for professionals in various fields, highlighting the intersection of physics, engineering, and security in our modern world.

在技术和工程领域，有许多术语对外行人来说可能显得晦涩。其中一个术语是去磁范围，指的是与磁场源的特定区域或距离，在该区域内，可以最小化或消除磁干扰的影响。这个概念在海军作战中尤为重要，因为舰船必须减少其磁签名，以避免被敌方水雷或鱼雷探测到。去磁过程涉及使用电感线圈产生一个磁场，以抵消舰船金属部件产生的多余磁场。要理解去磁范围的重要性，需要一些关于磁性及其在军事战略中的影响的背景知识。当一艘船建造时，其船体和其他金属部分会由于地球的磁场和制造过程中而变得磁化。这种磁化会使舰船更容易受到磁性水雷的攻击，这些水雷设计用于在感应到某种磁签名时引爆。因此，海军舰艇必须进行去磁程序，以确保它们在安全的去磁范围内操作。去磁范围因多个因素而异，包括船舶的大小、所用材料以及其产生的磁场强度。配备先进去磁系统的舰船可以显著降低其磁签名，从而有效扩大其作战能力，同时降低被探测的风险。这在执行隐秘任务时尤为重要，因为保持低调对于成功至关重要。此外，去磁范围的概念不仅限于海军应用；它在数据安全和电子设备等多个领域也有重要意义。在数据存储的背景下，去磁用于通过破坏编码信息的磁场来擦除磁介质上的数据。这个过程对处理敏感信息的组织至关重要，他们需要确保数据无法恢复。在这种情况下，理解去磁范围意味着认识到去磁工具的有效作用范围，以确保数据完全销毁。总之，术语去磁范围涵盖了从军事到数据安全的广泛应用。它的重要性在于能够减轻与磁签名相关的风险，无论是在防止敌人探测还是确保数据隐私方面。随着技术的不断发展，用于管理磁场及其影响的方法和工具也将不断演变。因此，掌握去磁范围的概念对于各个领域的专业人士来说至关重要，突显了我们现代世界中物理学、工程学和安全之间的交汇。