general athwartship demagnetization

简明释义

横向消磁

英英释义

例句

1.The effectiveness of general athwartship demagnetization 整体横向去磁 was evident when the ship's radar systems performed optimally.

当船只的雷达系统表现最佳时，整体横向去磁的有效性显而易见。

2.During the maintenance period, the crew focused on general athwartship demagnetization 整体横向去磁 to reduce magnetic interference.

在维护期间，船员们专注于整体横向去磁以减少磁干扰。

3.After the general athwartship demagnetization 整体横向去磁, the submarine was ready for its next mission without any magnetic anomalies.

经过整体横向去磁后，潜艇准备好进行下一次任务，没有任何磁异常。

4.The naval engineers conducted a thorough check on the vessel to ensure that the general athwartship demagnetization 整体横向去磁 was completed before its deployment.

海军工程师对船只进行了彻底检查，以确保在部署之前完成了整体横向去磁。

5.The training manual emphasized the importance of general athwartship demagnetization 整体横向去磁 in modern naval operations.

培训手册强调了整体横向去磁在现代海军作战中的重要性。

作文

In the realm of naval engineering and maritime operations, the term general athwartship demagnetization refers to a specific process aimed at reducing or eliminating the magnetic field generated by a ship. This is crucial for preventing the ship from becoming a target for magnetic mines, which can pose significant threats during naval warfare. The concept of demagnetization is essential for modern naval strategies, particularly in maintaining the safety and operational effectiveness of vessels in hostile environments.When a ship is constructed, it inevitably acquires a magnetic signature due to various factors, including the materials used in its construction, the machinery onboard, and the environmental influences it encounters. This magnetic signature can attract magnetic mines, which are designed to detonate upon sensing a specific magnetic field. Therefore, conducting general athwartship demagnetization becomes vital in ensuring that a ship can navigate through mined waters without the risk of detonation.The process of general athwartship demagnetization involves applying controlled electrical currents to the ship’s hull in a manner that counteracts its existing magnetic field. This is typically done by using a method known as 'degaussing,' where coils are placed around the ship to create an opposing magnetic field. By doing so, the ship's overall magnetic signature is significantly reduced, making it less detectable to magnetic mines.Moreover, the term 'athwartship' indicates that this demagnetization process is applied across the width of the ship, rather than along its length. This directional aspect is critical because magnetic fields can vary based on the orientation of the ship relative to the magnetic forces in the environment. Hence, achieving effective general athwartship demagnetization requires careful planning and execution to ensure that all areas of the ship are adequately addressed.The importance of general athwartship demagnetization extends beyond just immediate safety concerns. It also plays a significant role in the strategic deployment of naval forces. Ships that have undergone this process can operate with greater confidence in areas where mines may be present, allowing for more versatile and aggressive tactics during military operations. This capability not only enhances the survivability of individual vessels but also contributes to the overall effectiveness of naval fleets.In conclusion, understanding general athwartship demagnetization is essential for those involved in naval operations and maritime safety. As technology advances and the nature of naval warfare evolves, the methods and techniques associated with demagnetization will likely continue to develop. However, the fundamental principle remains: reducing a ship's magnetic signature is vital for ensuring its safety and operational success in potentially hostile environments. As we move forward, the integration of advanced technologies in the demagnetization process will undoubtedly enhance the capabilities of naval forces worldwide, safeguarding them against the ever-present threat of underwater mines.

在海军工程和海事操作领域，术语一般横向去磁指的是一种特定的过程，旨在减少或消除船舶产生的磁场。这对于防止船舶成为磁性水雷的目标至关重要，因为水雷在海军战争中可能构成重大威胁。去磁的概念对现代海军战略至关重要，特别是在维护舰艇在敌对环境中的安全和作战有效性方面。当一艘船建造时，由于多种因素，包括其建造所用的材料、船上设备以及它遇到的环境影响，它不可避免地会获得一个磁性标志。这种磁性标志可能会吸引磁性水雷，这些水雷设计为在感知到特定的磁场时引爆。因此，进行一般横向去磁变得至关重要，以确保船舶可以在布雷水域中航行而不面临引爆的风险。一般横向去磁的过程涉及对船体施加控制电流，以抵消其现有的磁场。这通常通过使用称为“去磁”的方法来完成，在船周围放置线圈以产生相反的磁场。通过这样做，船舶的整体磁性标志显著减少，使其对磁性水雷的探测性降低。此外，“横向”一词表明，该去磁过程是跨越船舶的宽度应用，而不是沿其长度。这一方向性的方面至关重要，因为磁场可能会根据船舶相对于环境中的磁力的方向而变化。因此，实现有效的一般横向去磁需要仔细规划和执行，以确保船舶的所有区域都得到充分处理。一般横向去磁的重要性不仅仅局限于立即的安全问题。它还在海军力量的战略部署中发挥着重要作用。经过这一过程的船舶可以在可能存在水雷的区域更自信地操作，从而允许在军事行动中采取更灵活和积极的战术。这种能力不仅增强了单个舰艇的生存能力，还促进了整个海军舰队的有效性。总之，理解一般横向去磁对参与海军行动和海事安全的人至关重要。随着技术的进步和海军战争性质的演变，与去磁相关的方法和技术可能会继续发展。然而，基本原则仍然是：减少船舶的磁性标志对确保其在潜在敌对环境中的安全和作战成功至关重要。随着我们前进，去磁过程中先进技术的整合无疑将增强全球海军力量的能力，保护它们免受水下水雷的持续威胁。