radiation shield wall

简明释义

防辐射墙

英英释义

例句

1.During the incident, the radiation shield wall successfully contained the leak, preventing wider contamination.

在事件发生期间，辐射屏蔽墙成功遏制了泄漏，防止了更广泛的污染。

2.In medical facilities, radiation shield walls are crucial for safeguarding patients and staff during treatments.

在医疗设施中，辐射屏蔽墙对于保护患者和工作人员在治疗期间至关重要。

3.The laboratory's radiation shield wall was tested for efficacy before the experiments began.

实验室的辐射屏蔽墙在实验开始前进行了有效性测试。

4.The nuclear power plant was designed with a robust radiation shield wall to protect workers from exposure.

核电站设计了一个坚固的辐射屏蔽墙来保护工人免受辐射暴露。

5.Construction of a new radiation shield wall is underway at the research facility to enhance safety measures.

研究设施正在建设一面新的辐射屏蔽墙以增强安全措施。

作文

In the field of nuclear science and engineering, the term radiation shield wall refers to a critical structure designed to protect individuals and the environment from harmful radiation emitted during nuclear reactions or radioactive decay. The importance of such walls cannot be overstated, as they play a vital role in ensuring safety within nuclear facilities, medical institutions, and even in space exploration. 辐射屏蔽墙在核科学和工程领域中是一个关键结构，旨在保护个人和环境免受核反应或放射性衰变过程中释放的有害辐射的影响。这样的墙体的重要性不容小觑，因为它们在确保核设施、医疗机构甚至太空探索中的安全方面发挥着至关重要的作用。The construction of a radiation shield wall typically involves the use of dense materials such as lead, concrete, or specialized composites that can effectively absorb or deflect radiation. For instance, lead is commonly used in medical settings, such as X-ray rooms, where it provides a barrier against ionizing radiation. In larger nuclear reactors, concrete walls may be several feet thick to ensure that radiation levels remain within safe limits for workers and the surrounding community. 辐射屏蔽墙的构造通常涉及使用密度较大的材料，如铅、混凝土或专门的复合材料，这些材料可以有效地吸收或偏转辐射。例如，铅通常用于医疗环境，如X光室，在那里它提供了对电离辐射的屏障。在较大的核反应堆中，混凝土墙可能厚达数英尺，以确保辐射水平保持在工人和周围社区的安全限制内。One of the most significant applications of a radiation shield wall is in the design of nuclear power plants. These facilities require robust shielding to protect workers from exposure to radiation during normal operations and potential accidents. The walls are often reinforced with additional layers of protective materials to account for various radiation types, including alpha, beta, and gamma radiation, each of which has different penetration abilities. As such, engineers must carefully calculate the required thickness and composition of the 辐射屏蔽墙 to ensure optimal safety.In addition to nuclear power plants, radiation shield walls are also essential in medical facilities where radiation therapy is administered. Patients undergoing treatments for cancer, for example, are often placed in rooms with radiation shield walls to minimize exposure to healthcare providers and other patients. This is crucial not only for safety but also for maintaining the integrity of the treatment process. Medical professionals must ensure that the walls are properly constructed and maintained to provide effective protection against radiation. 除了核电站外，辐射屏蔽墙在进行放射治疗的医疗设施中也至关重要。例如，接受癌症治疗的患者通常被安置在具有辐射屏蔽墙的房间中，以尽量减少对医护人员和其他患者的辐射暴露。这不仅对安全至关重要，而且对于维持治疗过程的完整性也至关重要。医疗专业人员必须确保这些墙体的构造和维护得当，以提供有效的辐射保护。As we look to the future, the role of radiation shield walls will continue to evolve, particularly with advancements in technology and materials science. New composite materials may offer lighter yet equally effective solutions for shielding, reducing the overall weight and cost of construction. Furthermore, as space exploration missions become more ambitious, the need for effective 辐射屏蔽墙 will become increasingly important to protect astronauts from cosmic radiation. 随着我们展望未来，辐射屏蔽墙的角色将继续发展，特别是在技术和材料科学的进步方面。新的复合材料可能会提供更轻便但同样有效的屏蔽解决方案，从而降低整体建筑的重量和成本。此外，随着太空探索任务变得越来越雄心勃勃，有效的辐射屏蔽墙的需求将变得越来越重要，以保护宇航员免受宇宙辐射的影响。In conclusion, the radiation shield wall is an indispensable element in various fields where radiation is present. Whether in nuclear power generation, medical treatment, or space exploration, these structures ensure safety and protection against the dangers of radiation. As technology progresses, the design and implementation of 辐射屏蔽墙 will continue to adapt, providing even greater safety for future generations.

在核科学和工程领域中，术语辐射屏蔽墙指的是一种关键结构，旨在保护个人和环境免受核反应或放射性衰变过程中释放的有害辐射的影响。这样的墙体的重要性不容小觑，因为它们在确保核设施、医疗机构甚至太空探索中的安全方面发挥着至关重要的作用。辐射屏蔽墙的构造通常涉及使用密度较大的材料，如铅、混凝土或专门的复合材料，这些材料可以有效地吸收或偏转辐射。例如，铅通常用于医疗环境，如X光室，在那里它提供了对电离辐射的屏障。在较大的核反应堆中，混凝土墙可能厚达数英尺，以确保辐射水平保持在工人和周围社区的安全限制内。辐射屏蔽墙的构造通常涉及使用密度较大的材料，如铅、混凝土或专门的复合材料，这些材料可以有效地吸收或偏转辐射。例如，铅通常用于医疗环境，如X光室，在那里它提供了对电离辐射的屏障。在较大的核反应堆中，混凝土墙可能厚达数英尺，以确保辐射水平保持在工人和周围社区的安全限制内。辐射屏蔽墙的构造通常涉及使用密度较大的材料，如铅、混凝土或专门的复合材料，这些材料可以有效地吸收或偏转辐射。例如，铅通常用于医疗环境，如X光室，在那里它提供了对电离辐射的屏障。在较大的核反应堆中，混凝土墙可能厚达数英尺，以确保辐射水平保持在工人和周围社区的安全限制内。