magnetic feedthrough

简明释义

通过外壳的磁场传动

英英释义

例句

1.In high-energy physics experiments, a reliable magnetic feedthrough is crucial.

在高能物理实验中，可靠的磁性穿透器至关重要。

2.The magnetic feedthrough allows for the transfer of signals without compromising the vacuum.

该磁性穿透器允许信号传输而不影响真空。

3.The new design includes a magnetic feedthrough to enhance the system's efficiency.

新设计包括一个磁性穿透器以提高系统的效率。

4.The engineers tested the magnetic feedthrough under extreme conditions.

工程师在极端条件下测试了磁性穿透器。

5.We need to ensure that the magnetic feedthrough is properly sealed to prevent contamination.

我们需要确保磁性穿透器正确密封，以防止污染。

作文

In the field of engineering and technology, the term magnetic feedthrough refers to a specialized component that allows for the transfer of magnetic fields through a barrier while maintaining electrical isolation. This technology is particularly important in applications where sensitive electronic components need to be shielded from external electromagnetic interference, or when there is a need to control magnetic fields within a sealed environment. The concept of magnetic feedthrough is essential in various industries, including aerospace, medical devices, and telecommunications.The primary function of a magnetic feedthrough is to enable the passage of magnetic flux without compromising the integrity of the system it is integrated into. For instance, in a vacuum chamber used for scientific experiments, researchers may need to manipulate magnetic fields to control the behavior of particles or materials inside. A magnetic feedthrough allows them to do this without introducing contaminants or altering the vacuum conditions. This capability is crucial in environments where precision and cleanliness are paramount.Moreover, the design of a magnetic feedthrough often involves the use of specialized materials that can withstand harsh conditions, such as extreme temperatures or high radiation levels. Engineers must carefully select these materials to ensure that they do not interfere with the magnetic properties being transmitted. This attention to detail is what makes magnetic feedthrough components reliable and effective in their applications.Another significant aspect of magnetic feedthrough technology is its role in enhancing the performance of electronic devices. For example, in electric motors and generators, the ability to control magnetic fields effectively can lead to improved efficiency and reduced energy losses. By integrating a magnetic feedthrough, manufacturers can optimize the design of these machines, ultimately leading to better performance and lower operational costs.In addition to industrial applications, magnetic feedthrough technology is also finding its way into consumer electronics. As devices become more compact and powerful, the need for efficient power management and electromagnetic compatibility becomes increasingly important. By utilizing magnetic feedthrough components, designers can create products that not only perform better but also comply with stringent regulatory standards related to electromagnetic emissions.As the demand for advanced technologies continues to rise, the role of magnetic feedthrough will likely expand further. Researchers are exploring new materials and designs that could enhance the capabilities of these components, making them even more versatile and effective in a broader range of applications. Innovations in this area could lead to breakthroughs in fields such as quantum computing, where precise control of magnetic fields is essential.In conclusion, the magnetic feedthrough is a vital component in modern engineering that facilitates the transfer of magnetic fields across barriers while ensuring electrical isolation. Its applications span various industries, from aerospace to consumer electronics, highlighting its importance in both industrial and technological advancements. As research and development continue to evolve, the future of magnetic feedthrough technology holds great promise, potentially leading to enhanced performance and new capabilities in numerous fields.

在工程和技术领域，术语magnetic feedthrough指的是一种专用组件，它允许磁场通过障碍物传递，同时保持电气隔离。这项技术在需要保护敏感电子组件免受外部电磁干扰的应用中尤为重要，或者在需要在密封环境中控制磁场时。magnetic feedthrough的概念在航空航天、医疗设备和电信等多个行业中至关重要。magnetic feedthrough的主要功能是使磁通的通过不会妨碍其集成系统的完整性。例如，在用于科学实验的真空室中，研究人员可能需要操控磁场，以控制内部粒子或材料的行为。magnetic feedthrough使他们能够做到这一点，而不会引入污染物或改变真空条件。这种能力在对精度和清洁度要求极高的环境中至关重要。此外，magnetic feedthrough的设计通常涉及使用能够承受恶劣条件（如极端温度或高辐射水平）的专用材料。工程师必须仔细选择这些材料，以确保它们不会干扰所传输的磁性特性。这种对细节的关注使得magnetic feedthrough组件在其应用中可靠且有效。magnetic feedthrough技术的另一个重要方面是它在增强电子设备性能中的作用。例如，在电动机和发电机中，有效控制磁场的能力可以提高效率并减少能量损失。通过集成magnetic feedthrough，制造商可以优化这些机器的设计，从而最终提高性能并降低运营成本。除了工业应用，magnetic feedthrough技术也逐渐进入消费电子产品。随着设备变得更加紧凑和强大，对高效电源管理和电磁兼容性的需求变得越来越重要。通过利用magnetic feedthrough组件，设计师可以创建不仅性能更好，而且符合与电磁排放相关的严格法规标准的产品。随着对先进技术的需求不断上升，magnetic feedthrough的角色可能会进一步扩大。研究人员正在探索新材料和设计，以增强这些组件的能力，使其在更广泛的应用中更加多样化和有效。在这个领域的创新可能会导致量子计算等领域的突破，在这些领域，精确控制磁场至关重要。总之，magnetic feedthrough是现代工程中一个重要组件，它促进了磁场在障碍物之间的传递，同时确保电气隔离。它的应用跨越多个行业，从航空航天到消费电子，突显了它在工业和技术进步中的重要性。随着研究和开发的持续演进，magnetic feedthrough技术的未来充满希望，可能在众多领域带来增强的性能和新能力。