effectiveness of shielding

简明释义

屏蔽效能

英英释义

例句

1.The report highlighted the effectiveness of shielding in preventing data breaches in cybersecurity.

报告强调了在网络安全中防止数据泄露的屏蔽有效性。

2.In medical applications, the effectiveness of shielding against radiation is crucial for patient safety.

在医疗应用中，辐射屏蔽的有效性对患者安全至关重要。

3.We need to evaluate the effectiveness of shielding provided by the new design to ensure it meets safety standards.

我们需要评估新设计提供的屏蔽效果的有效性，以确保其符合安全标准。

4.The study focused on the effectiveness of shielding materials used in construction to protect against sound pollution.

该研究集中在建筑中使用的隔音材料的有效性，以保护免受噪音污染。

5.The engineers conducted tests to determine the effectiveness of shielding in reducing electromagnetic interference.

工程师进行了测试，以确定屏蔽的有效性在减少电磁干扰方面的表现。

作文

In today's world, the importance of safety and protection cannot be overstated. One of the critical aspects of ensuring safety in various environments, especially in industrial and technological settings, is the effectiveness of shielding. The term refers to the ability of a material or structure to protect against harmful radiation, electromagnetic interference, or other hazardous elements. Understanding the effectiveness of shielding is essential for designing safe systems and environments that minimize risks to human health and the integrity of sensitive equipment.Shielding can take many forms, from physical barriers like walls and enclosures to specialized materials designed to absorb or deflect harmful radiation. For instance, in nuclear power plants, lead or concrete is often used to shield workers and the surrounding community from harmful radiation emitted during the energy generation process. The effectiveness of shielding in these scenarios is measured by its ability to reduce exposure levels to within safe limits, thereby protecting both people and the environment.Moreover, in the field of electronics, the effectiveness of shielding plays a pivotal role in ensuring the proper functioning of devices. Electronic components are often susceptible to electromagnetic interference (EMI), which can disrupt their operation. To combat this, manufacturers use various shielding techniques, such as enclosing sensitive circuits in metal casings or applying conductive coatings. The effectiveness of shielding in electronics is vital for maintaining performance and reliability, particularly in critical applications like telecommunications and medical devices.However, it is important to note that the effectiveness of shielding is not solely dependent on the materials used. Factors such as design, installation, and maintenance also significantly influence how well a shielding solution performs. For example, poorly designed shielding may create gaps or weak points that allow radiation or interference to penetrate. Therefore, thorough testing and evaluation are necessary to ensure that shielding measures provide the intended level of protection.The ongoing research into new materials and technologies continues to enhance the effectiveness of shielding. Innovations such as nanomaterials and advanced composites are being explored for their potential to provide superior protection while being lightweight and cost-effective. As industries evolve and new challenges arise, the quest for better shielding solutions remains a priority.In conclusion, the effectiveness of shielding is a crucial factor in safeguarding health, enhancing the performance of electronic devices, and ensuring the safety of various operations. By understanding and improving the effectiveness of shielding, we can create safer environments and more reliable technologies. As we move forward, continued innovation and attention to detail will be essential in addressing the ever-changing landscape of safety and protection in our modern world.

在当今世界，安全和保护的重要性不容小觑。确保各种环境（特别是工业和技术环境）安全的关键方面之一是屏蔽效果的有效性。这个术语指的是材料或结构保护免受有害辐射、电磁干扰或其他危险元素的能力。理解屏蔽效果的有效性对于设计安全系统和环境至关重要，这些系统和环境能够将对人类健康和敏感设备完整性的风险降至最低。屏蔽可以采取多种形式，从物理屏障，如墙壁和封闭装置，到专门设计用于吸收或偏转有害辐射的材料。例如，在核电站中，铅或混凝土通常用于保护工人和周围社区免受在发电过程中释放的有害辐射的影响。在这些情况下，屏蔽效果的有效性通过其将暴露水平降低到安全范围内的能力来衡量，从而保护人类和环境。此外，在电子领域，屏蔽效果的有效性在确保设备正常运作方面发挥着关键作用。电子元件通常容易受到电磁干扰（EMI）的影响，这可能会干扰其操作。为了应对这一点，制造商使用各种屏蔽技术，例如将敏感电路封闭在金属外壳中或涂覆导电涂层。电子设备中的屏蔽效果的有效性对于维护性能和可靠性至关重要，尤其是在电信和医疗设备等关键应用中。然而，值得注意的是，屏蔽效果的有效性不仅仅取决于所使用的材料。设计、安装和维护等因素也会显著影响屏蔽解决方案的表现。例如，设计不当的屏蔽可能会产生缝隙或薄弱点，使辐射或干扰得以渗透。因此，进行全面的测试和评估是确保屏蔽措施提供预期保护水平的必要条件。对新材料和技术的持续研究不断提升屏蔽效果的有效性。纳米材料和先进复合材料等创新正在被探索，以期提供优越的保护，同时又轻便且具有成本效益。随着行业的发展和新挑战的出现，寻求更好的屏蔽解决方案仍然是一个优先事项。总之，屏蔽效果的有效性是在保障健康、提高电子设备性能和确保各种操作安全方面的关键因素。通过理解和改善屏蔽效果的有效性，我们可以创造更安全的环境和更可靠的技术。随着我们向前发展，持续的创新和对细节的关注在应对现代世界中安全和保护的不断变化的格局时将是必不可少的。