combined shielding

简明释义

连续屏蔽

英英释义

例句

1.Using combined shielding techniques can significantly enhance the effectiveness of soundproofing in buildings.

使用综合屏蔽技术可以显著提高建筑物的隔音效果。

2.The military relies on combined shielding to protect sensitive equipment from electronic attacks.

军方依靠综合屏蔽来保护敏感设备免受电子攻击。

3.In the construction of nuclear facilities, combined shielding is crucial for safety.

在核设施的建设中，综合屏蔽对安全至关重要。

4.The engineers designed a system with combined shielding to minimize electromagnetic interference.

工程师设计了一个系统，采用综合屏蔽以最小化电磁干扰。

5.The laboratory used combined shielding to protect researchers from radiation exposure.

实验室使用综合屏蔽来保护研究人员免受辐射影响。

作文

In the world of modern technology, the concept of shielding is crucial for protecting sensitive equipment and ensuring safety. One of the most effective methods of protection is through what is known as combined shielding. This term refers to the integration of multiple shielding techniques to provide enhanced protection against various forms of interference, such as electromagnetic fields, radiation, and physical impacts. The use of combined shielding allows engineers and technicians to create more robust designs that can withstand harsh environments while maintaining optimal performance.The need for combined shielding arises from the increasing complexity of electronic devices and systems. As technology advances, devices are becoming more compact and powerful, which in turn raises the risk of interference from external sources. For example, in medical equipment, it is essential to prevent electromagnetic interference (EMI) to ensure accurate readings and safe operation. By employing combined shielding, manufacturers can utilize materials like conductive metals and specialized coatings to create layers of protection that effectively block unwanted signals.One common application of combined shielding can be found in telecommunications. Mobile phones, for instance, require shielding to protect internal components from both EMI and physical damage. Engineers often use a combination of metal casings and insulating materials to achieve this. The metal casing provides a barrier against electromagnetic interference, while the insulating materials help absorb shocks and vibrations. This combination not only enhances the durability of the device but also improves its performance by reducing noise and interference.Another area where combined shielding proves invaluable is in the aerospace industry. Aircraft and spacecraft are exposed to extreme conditions, including high levels of radiation and intense electromagnetic fields. To safeguard critical systems, engineers implement combined shielding strategies that involve layering different materials, such as aluminum and specialized polymers. This multi-faceted approach ensures that both radiation and EMI are mitigated, thus preserving the integrity of the avionics and communication systems.The effectiveness of combined shielding lies in its ability to address multiple threats simultaneously. By using a variety of materials and techniques, it is possible to tailor the shielding to specific applications and environments. For instance, in nuclear facilities, where radiation exposure is a significant concern, combined shielding may include dense materials like lead along with other barriers designed to absorb and deflect harmful rays. This strategic layering not only enhances safety but also complies with regulatory standards that govern radiation exposure.In conclusion, combined shielding represents a vital aspect of modern engineering and technology. Its ability to integrate various shielding methods provides comprehensive protection against a range of threats, from electromagnetic interference to physical damage. As technology continues to evolve, the importance of combined shielding will only grow, ensuring that devices remain safe, reliable, and efficient in an increasingly complex world. Understanding and implementing combined shielding is essential for engineers and designers who aim to create cutting-edge solutions that meet the demands of today's technological landscape.

在现代技术的世界里，屏蔽的概念对保护敏感设备和确保安全至关重要。最有效的保护方法之一是所谓的综合屏蔽。这个术语指的是将多种屏蔽技术结合在一起，以提供对各种干扰形式的增强保护，如电磁场、辐射和物理冲击。使用综合屏蔽使工程师和技术人员能够创建更坚固的设计，能够承受恶劣环境，同时保持最佳性能。综合屏蔽的需求源于电子设备和系统日益复杂化。随着技术的进步，设备变得越来越紧凑和强大，这反过来又增加了来自外部源的干扰风险。例如，在医疗设备中，防止电磁干扰（EMI）以确保准确读数和安全操作至关重要。通过采用综合屏蔽，制造商可以利用导电金属和专用涂层等材料，创建有效阻挡不必要信号的保护层。综合屏蔽的一个常见应用可以在电信领域找到。例如，手机需要屏蔽以保护内部组件免受EMI和物理损坏。工程师通常使用金属外壳和绝缘材料的组合来实现这一点。金属外壳提供了对电磁干扰的屏障，而绝缘材料则有助于吸收冲击和振动。这种组合不仅增强了设备的耐用性，还通过减少噪声和干扰提高了其性能。另一个综合屏蔽证明其无价之处的领域是航空航天工业。飞机和航天器暴露于极端条件下，包括高水平的辐射和强烈的电磁场。为了保护关键系统，工程师实施了综合屏蔽策略，涉及不同材料的分层，如铝和专用聚合物。这种多层次的方法确保了辐射和EMI的减轻，从而保护航空电子设备和通信系统的完整性。综合屏蔽的有效性在于它能够同时应对多种威胁。通过使用多种材料和技术，可以针对特定应用和环境量身定制屏蔽。例如，在核设施中，辐射暴露是一个重大问题，综合屏蔽可能包括像铅这样的密集材料以及其他旨在吸收和偏转有害射线的屏障。这种战略性分层不仅增强了安全性，而且符合管理辐射暴露的监管标准。总之，综合屏蔽代表了现代工程和技术的重要方面。它整合多种屏蔽方法的能力为各种威胁提供了全面保护，从电磁干扰到物理损坏。随着技术的不断发展，综合屏蔽的重要性只会增长，确保设备在日益复杂的世界中保持安全、可靠和高效。理解和实施综合屏蔽对于希望创造出符合当今技术环境需求的尖端解决方案的工程师和设计师而言至关重要。