radioresistive glass
简明释义
耐辐射玻璃
英英释义
例句
1.The laboratory installed new radioresistive glass to protect researchers from radiation exposure.
实验室安装了新的抗辐射玻璃以保护研究人员免受辐射暴露。
2.The radioresistive glass used in this hospital helps prevent harmful rays from entering patient rooms.
这家医院使用的抗辐射玻璃有助于防止有害射线进入病房。
3.Architects often recommend radioresistive glass for buildings near radiation sources.
建筑师通常建议在靠近辐射源的建筑中使用抗辐射玻璃。
4.The safety features of radioresistive glass make it ideal for use in research laboratories.
由于抗辐射玻璃的安全特性,它非常适合用于研究实验室。
5.In the nuclear facility, all windows are made of radioresistive glass to ensure safety.
在核设施中,所有窗户都由抗辐射玻璃制成,以确保安全。
作文
In the modern world, technology plays a crucial role in various fields, including medicine, communication, and construction. One of the fascinating innovations that have emerged is radioresistive glass, which has significant applications in protecting sensitive electronic equipment from harmful radiation. This type of glass is designed to resist the penetration of radio waves, making it an essential material in environments where electronic devices operate. The importance of radioresistive glass cannot be overstated, especially in industries such as telecommunications and healthcare where electronic devices are prevalent.The primary function of radioresistive glass is to provide a barrier against electromagnetic interference (EMI). In hospitals, for instance, numerous medical devices, such as MRI machines and X-ray equipment, emit and receive radio waves. If these devices are not properly shielded, they can interfere with each other's functioning, leading to inaccurate results or even device malfunction. By using radioresistive glass in the design of hospital rooms and equipment enclosures, medical professionals can ensure that these devices operate optimally without interference.Moreover, the use of radioresistive glass extends beyond the healthcare sector. In the telecommunications industry, where the reliability of signal transmission is paramount, this specialized glass helps in maintaining the integrity of signals. Cell towers and communication satellites often incorporate radioresistive glass to minimize the impact of external radio frequency interference. This results in clearer communication signals and improved overall performance of telecommunication systems.Another application of radioresistive glass is in the construction of secure facilities, such as data centers and military installations. These environments require stringent security measures to protect sensitive information and equipment from potential threats, including espionage and sabotage. By integrating radioresistive glass into windows and walls, these facilities can create a shield against unauthorized access to electronic data, making it more challenging for malicious entities to intercept signals.In addition to its protective properties, radioresistive glass also offers aesthetic benefits. This glass can be manufactured in various designs and finishes, allowing architects and designers to incorporate it into their projects without compromising on style. Whether it is used in modern office buildings or residential homes, radioresistive glass serves a dual purpose of providing safety while enhancing visual appeal.Furthermore, the development of radioresistive glass has been driven by the increasing demand for sustainable building materials. As society becomes more aware of environmental issues, there is a growing emphasis on using materials that not only perform well but also reduce energy consumption. Some manufacturers are now producing radioresistive glass with energy-efficient coatings that help regulate indoor temperatures, thereby decreasing reliance on heating and cooling systems.In conclusion, radioresistive glass represents a remarkable advancement in material science, offering solutions to various challenges faced in today's technology-driven world. Its ability to resist electromagnetic interference makes it indispensable in sectors like healthcare and telecommunications, while its aesthetic versatility allows it to be seamlessly integrated into architectural designs. As technology continues to evolve, the role of radioresistive glass will likely expand, paving the way for safer and more efficient environments for both work and leisure. Understanding the significance of radioresistive glass is essential for anyone interested in the future of technology and its applications in our daily lives.
在现代世界中,技术在医学、通信和建筑等各个领域发挥着至关重要的作用。其中一种令人着迷的创新是抗辐射玻璃,它在保护敏感电子设备免受有害辐射方面具有重要应用。这种类型的玻璃旨在抵抗无线电波的穿透,使其成为电子设备运行环境中必不可少的材料。抗辐射玻璃的重要性不容小觑,尤其是在医疗和通信等电子设备普遍存在的行业。抗辐射玻璃的主要功能是提供对电磁干扰(EMI)的屏障。例如,在医院中,众多医疗设备,如MRI机器和X光设备,会发射和接收无线电波。如果这些设备没有得到适当的屏蔽,它们可能会相互干扰,导致结果不准确甚至设备故障。通过在医院房间和设备外壳的设计中使用抗辐射玻璃,医疗专业人员可以确保这些设备在没有干扰的情况下最佳运行。此外,抗辐射玻璃的使用超出了医疗行业。在电信行业,信号传输的可靠性至关重要,这种专用玻璃有助于保持信号的完整性。基站和通信卫星通常会采用抗辐射玻璃,以最小化外部无线电频率干扰的影响。这导致通信信号更清晰,电信系统的整体性能得到了改善。抗辐射玻璃的另一个应用是在安全设施的建设中,例如数据中心和军事设施。这些环境需要严格的安全措施,以保护敏感信息和设备免受潜在威胁,包括间谍活动和破坏。通过将抗辐射玻璃集成到窗户和墙壁中,这些设施可以创建一个防止未经授权访问电子数据的屏障,使恶意实体更加难以拦截信号。除了其保护特性,抗辐射玻璃还提供美学上的好处。这种玻璃可以制造成各种设计和表面处理,允许建筑师和设计师在项目中融入它,而不妨碍风格。无论是在现代办公大楼还是住宅中,抗辐射玻璃都能兼顾安全与视觉吸引力。此外,抗辐射玻璃的发展也受到对可持续建筑材料需求增加的推动。随着社会对环境问题的关注加大,越来越强调使用不仅性能良好而且减少能源消耗的材料。一些制造商现在正在生产带有节能涂层的抗辐射玻璃,帮助调节室内温度,从而减少对供暖和制冷系统的依赖。总之,抗辐射玻璃代表了材料科学的显著进步,为当今技术驱动世界面临的各种挑战提供了解决方案。它抵抗电磁干扰的能力使其在医疗和电信等行业中不可或缺,而它的美学多样性则使其能够无缝融入建筑设计中。随着技术的不断发展,抗辐射玻璃的角色可能会扩大,为工作和休闲创造更安全、更高效的环境。理解抗辐射玻璃的重要性对于任何对技术未来及其在我们日常生活中的应用感兴趣的人来说都是必不可少的。
