antiradiation material

简明释义

防辐射材料

英英释义

例句

1.The construction of nuclear power plants requires extensive use of antiradiation material to ensure safety.

核电站的建设需要广泛使用抗辐射材料以确保安全。

2.The military uses antiradiation material to protect soldiers from harmful radiation exposure during operations.

军方使用抗辐射材料来保护士兵在行动中免受有害辐射的影响。

3.In hospitals, antiradiation material is often used in protective gear for staff working with X-ray machines.

在医院中，工作人员使用X光机时，常常使用抗辐射材料作为防护装备。

4.Researchers are developing new antiradiation material that can be used in spacecraft to protect astronauts.

研究人员正在开发新型抗辐射材料，可用于航天器以保护宇航员。

5.Some smartphones are designed with antiradiation material to reduce the amount of radiation emitted during use.

一些智能手机采用抗辐射材料设计，以减少使用时发出的辐射量。

作文

In today's world, where technology is an integral part of our lives, the concern about radiation exposure has become increasingly significant. We are surrounded by devices that emit various forms of radiation, from our smartphones to microwave ovens. As a result, the development and utilization of antiradiation material (抗辐射材料) have gained prominence. These materials are designed to shield individuals from harmful radiation, thereby promoting better health and safety. The primary function of antiradiation material (抗辐射材料) is to absorb or deflect radiation waves. This can include electromagnetic radiation from devices such as cell phones and computers, as well as ionizing radiation from medical equipment and other sources. Various types of antiradiation material (抗辐射材料) exist, ranging from specialized fabrics to coatings and building materials. For instance, clothing made with antiradiation material (抗辐射材料) can provide a protective barrier against the radiation emitted by electronic devices. One of the most common applications of antiradiation material (抗辐射材料) is in the medical field. Hospitals and clinics often use these materials to protect patients and staff from unnecessary exposure to radiation during diagnostic procedures such as X-rays or CT scans. The use of lead aprons, which are a form of antiradiation material (抗辐射材料), is a standard practice in many healthcare settings. These aprons help to safeguard vital organs and reduce the risk of radiation-related health issues. In addition to the medical sector, the construction industry has also recognized the importance of antiradiation material (抗辐射材料). Buildings can be constructed with materials that inherently possess radiation-shielding properties. For example, concrete mixed with specific additives can effectively block radiation, making it a suitable choice for constructing facilities that house sensitive equipment, such as nuclear power plants or research laboratories. The growing awareness of radiation exposure has led to an increase in consumer products that incorporate antiradiation material (抗辐射材料). Many manufacturers now offer phone cases, laptop sleeves, and even home textiles that claim to provide protection against radiation. While the effectiveness of these products can vary, they reflect a broader trend towards prioritizing health and safety in our daily lives. Moreover, the scientific community continues to research and develop new types of antiradiation material (抗辐射材料). Innovations in nanotechnology and material science are paving the way for more effective and lightweight solutions. Researchers are exploring materials that can be integrated into everyday items without compromising their functionality. This could lead to a future where we can seamlessly incorporate antiradiation material (抗辐射材料) into our clothing, accessories, and even home furnishings. In conclusion, the relevance of antiradiation material (抗辐射材料) in modern society cannot be overstated. As we continue to navigate a world filled with radiation-emitting devices, the need for effective shielding becomes ever more critical. Whether through medical applications, construction practices, or consumer products, antiradiation material (抗辐射材料) plays a vital role in ensuring our safety and well-being. As technology evolves, so too will the materials designed to protect us from its potential hazards, highlighting the importance of ongoing research and innovation in this field.

在今天这个技术已成为我们生活不可或缺部分的世界中，辐射暴露的担忧变得越来越重要。我们周围充满了各种发出辐射的设备，从智能手机到微波炉。因此，开发和利用抗辐射材料（antiradiation material）变得越来越突出。这些材料旨在保护个人免受有害辐射的影响，从而促进更好的健康和安全。抗辐射材料（antiradiation material）的主要功能是吸收或偏转辐射波。这可以包括来自手机和计算机等设备的电磁辐射，以及来自医疗设备和其他来源的电离辐射。各种类型的抗辐射材料（antiradiation material）存在，从专用面料到涂层和建筑材料。例如，使用抗辐射材料（antiradiation material）制成的服装可以为电子设备发出的辐射提供保护屏障。抗辐射材料（antiradiation material）最常见的应用之一是在医疗领域。医院和诊所通常使用这些材料来保护患者和工作人员在进行X光或CT扫描等诊断程序时免受不必要的辐射暴露。铅围裙的使用是许多医疗环境中的标准做法，这是一种抗辐射材料（antiradiation material）。这些围裙有助于保护重要器官，降低与辐射相关的健康问题风险。除了医疗行业，建筑行业也意识到了抗辐射材料（antiradiation material）的重要性。建筑可以使用具有辐射屏蔽特性的材料进行建造。例如，混合特定添加剂的混凝土可以有效阻挡辐射，使其成为建造存放敏感设备的设施（如核电站或研究实验室）的合适选择。对辐射暴露的日益关注导致了越来越多的消费品采用抗辐射材料（antiradiation material）。许多制造商现在提供声称能够提供辐射保护的手机壳、笔记本电脑保护套，甚至家用纺织品。尽管这些产品的有效性可能有所不同，但它们反映了一种更广泛的趋势，即优先考虑我们日常生活中的健康和安全。此外，科学界继续研究和开发新型抗辐射材料（antiradiation material）。纳米技术和材料科学的创新正在为更有效和轻便的解决方案铺平道路。研究人员正在探索可以无缝集成到日常物品中的材料，而不妨碍其功能。这可能会导致一个未来，我们可以将抗辐射材料（antiradiation material）无缝融入我们的服装、配饰，甚至家居用品中。总之，抗辐射材料（antiradiation material）在现代社会中的相关性不容小觑。随着我们继续在一个充满辐射发射设备的世界中航行，有效屏蔽的需求变得愈发关键。无论是通过医疗应用、建筑实践还是消费产品，抗辐射材料（antiradiation material）在确保我们的安全和福祉方面发挥着至关重要的作用。随着技术的发展，旨在保护我们免受其潜在危害的材料也将不断演变，这突显了这一领域持续研究和创新的重要性。