barrier shielding

简明释义

护栅栏

英英释义

例句

1.In the laboratory, scientists used barrier shielding to prevent radiation exposure during experiments.

在实验室中，科学家使用屏障屏蔽来防止实验过程中辐射暴露。

2.During the construction, workers ensured that proper barrier shielding was in place to keep dust from affecting the surrounding area.

在施工期间，工人确保适当的屏障屏蔽到位，以防止灰尘影响周围地区。

3.The engineers designed a barrier shielding system to protect sensitive equipment from electromagnetic interference.

工程师设计了一种屏障屏蔽系统，以保护敏感设备免受电磁干扰。

4.The city implemented barrier shielding along the highway to reduce the impact of traffic noise on nearby neighborhoods.

该市在高速公路沿线实施了屏障屏蔽，以减少交通噪音对附近社区的影响。

5.The new design of the building includes barrier shielding to protect occupants from noise pollution.

新建筑的设计包括屏障屏蔽，以保护居民免受噪音污染。

作文

In today's rapidly advancing world, the concept of protection and safety has become increasingly important. One area where this is particularly relevant is in the field of technology and engineering. Among various protective measures, the idea of barrier shielding plays a crucial role. This term refers to the use of physical barriers designed to absorb or deflect harmful radiation, particles, or other hazardous elements, thereby safeguarding both people and sensitive equipment. Understanding barrier shielding is essential for professionals working in environments where exposure to such dangers is a concern.To illustrate the significance of barrier shielding, we can look at its application in nuclear power plants. These facilities generate energy through nuclear fission, a process that produces not only electricity but also potentially dangerous radiation. To mitigate the risks associated with this radiation, various forms of barrier shielding are implemented. Thick concrete walls, lead-lined rooms, and specialized materials are used to ensure that any emitted radiation does not escape into the surrounding environment. This protective measure is vital for the safety of plant workers and nearby residents, highlighting the importance of effective shielding in high-risk industries.Moreover, barrier shielding is not limited to nuclear facilities. It is also prevalent in medical settings, particularly in radiology departments. When patients undergo X-rays or other imaging procedures that involve radiation, healthcare professionals must utilize barrier shielding to protect themselves from unnecessary exposure. Lead aprons, shields, and walls are standard components of these protective measures, ensuring that while patients receive necessary medical care, the health of the staff is not compromised.The importance of barrier shielding extends beyond just physical health; it also encompasses environmental safety. In industries such as aerospace and defense, where exposure to high-energy particles can occur, implementing effective barrier shielding is crucial. For instance, spacecraft must be designed with materials that provide adequate shielding against cosmic radiation, which can pose significant risks to astronauts during long missions. By incorporating advanced shielding technologies, space agencies can ensure the safety and well-being of their crew members.In addition to its practical applications, barrier shielding also raises interesting questions about innovation and sustainability. As technology continues to evolve, researchers are exploring new materials and methods for enhancing shielding effectiveness. For example, the development of lightweight composite materials could revolutionize how barrier shielding is implemented in various fields, making it more efficient and easier to handle without compromising safety.In conclusion, the concept of barrier shielding is vital across multiple sectors, from nuclear energy and healthcare to aerospace and defense. Its primary purpose is to protect individuals and the environment from harmful radiation and other hazardous elements. As we move forward, it is essential to continue investing in research and development to improve barrier shielding technologies, ensuring that safety remains a top priority in our rapidly changing world. The ongoing advancements in this field will not only enhance protective measures but also contribute to a safer and more sustainable future for all.

在当今快速发展的世界中，保护和安全的概念变得越来越重要。在技术和工程领域，这一点尤为相关。在各种保护措施中，屏障屏蔽的概念发挥着至关重要的作用。这个术语指的是使用物理屏障来吸收或偏转有害辐射、粒子或其他危险元素，从而保护人类和敏感设备。理解屏障屏蔽对于在暴露于这些危险的环境中工作的专业人士来说至关重要。为了说明屏障屏蔽的重要性，我们可以看看它在核电站中的应用。这些设施通过核裂变产生能量，这一过程不仅产生电力，还可能释放出危险的辐射。为了减轻与这种辐射相关的风险，实施了各种形式的屏障屏蔽。厚厚的混凝土墙、铅衬里房间和专用材料被用来确保任何释放的辐射不会逃逸到周围环境中。这种保护措施对发电厂工人和附近居民的安全至关重要，突显出在高风险行业中有效屏蔽的重要性。此外，屏障屏蔽不仅限于核设施。在医疗环境中也很普遍，尤其是在放射科部门。当患者接受X光或其他涉及辐射的成像程序时，医疗专业人员必须利用屏障屏蔽来保护自己免受不必要的暴露。铅围裙、屏障和墙壁是这些保护措施的标准组成部分，确保在患者接受必要的医疗护理时，工作人员的健康不会受到影响。屏障屏蔽的重要性不仅仅体现在身体健康上；它还包括环境安全。在航空航天和国防等行业中，可能会发生高能粒子的暴露，因此实施有效的屏障屏蔽至关重要。例如，航天器必须设计成能够提供足够的屏蔽，以抵御宇宙辐射，这对长时间任务中的宇航员构成重大风险。通过采用先进的屏蔽技术，航天机构可以确保其机组成员的安全和健康。除了实际应用外，屏障屏蔽还引发了有关创新和可持续性的有趣问题。随着技术的不断发展，研究人员正在探索增强屏蔽效果的新材料和方法。例如，轻质复合材料的开发可能会彻底改变在各个领域中如何实施屏障屏蔽，使其更加高效且易于处理，而不影响安全。总之，屏障屏蔽的概念在多个领域至关重要，从核能和医疗保健到航空航天和国防。其主要目的是保护个人和环境免受有害辐射和其他危险元素的影响。随着我们向前发展，继续投资于研究和开发以改善屏障屏蔽技术至关重要，确保安全始终是我们快速变化的世界中的首要任务。该领域的持续进步不仅将增强保护措施，还将为所有人创造一个更安全、更可持续的未来。