radiation resistant

简明释义

耐辐照的

英英释义

例句

1.The new materials developed for space suits are highly radiation resistant.

为宇航服开发的新材料具有很强的抗辐射能力。

2.The radiation resistant materials are essential for building structures near nuclear plants.

这些抗辐射材料对于在核电站附近建造结构至关重要。

3.Researchers found a radiation resistant bacteria that can survive in extreme environments.

研究人员发现了一种能在极端环境中生存的抗辐射细菌。

4.Scientists are researching radiation resistant crops to withstand nuclear fallout.

科学家正在研究能够抵御核辐射的抗辐射作物。

5.Engineers designed a radiation resistant coating for the spacecraft's exterior.

工程师为航天器外部设计了一种抗辐射涂层。

作文

In recent years, the term radiation resistant has gained significant attention in various fields, especially in biology and materials science. The ability of certain organisms or materials to withstand high levels of radiation without suffering damage is a fascinating area of study. Radiation resistant organisms, such as the famous tardigrades, have intrigued scientists due to their unique adaptations that allow them to survive extreme environments, including outer space. These microscopic creatures can endure radiation levels that would be lethal to most forms of life, making them a key subject in research related to astrobiology and the potential for life on other planets.The mechanisms behind radiation resistant properties are complex and involve various biological and chemical processes. For instance, many radiation resistant organisms possess highly efficient DNA repair systems that can quickly fix damage caused by radiation exposure. This capability not only protects their genetic material but also ensures their survival in hostile conditions. Scientists are studying these mechanisms to understand how they might be applied to improve human resilience to radiation, particularly for astronauts who may face increased radiation exposure during long space missions.In addition to biological organisms, the concept of radiation resistant materials has important implications for technology and engineering. For example, in nuclear power plants and medical facilities that utilize radiation for treatment, the development of radiation resistant materials is crucial for ensuring safety and effectiveness. Researchers are working on creating new alloys and polymers that can withstand high doses of radiation without degrading over time. Such advancements could lead to safer designs for reactors and better equipment for radiation therapy, ultimately benefiting public health and safety.Furthermore, understanding radiation resistant properties can aid in the development of better protective gear for workers in radiation-heavy environments, such as nuclear facilities and hospitals. By incorporating radiation resistant materials into protective clothing, we can enhance the safety of individuals who are exposed to radiation on a regular basis. This is particularly important in the context of increasing medical procedures that involve radiation, such as imaging and cancer treatments.The implications of radiation resistant research extend beyond Earth. As we explore the cosmos, understanding how life can thrive in high-radiation environments will be vital for future missions to Mars and beyond. If we are to establish human colonies on other planets, we must learn from radiation resistant organisms on Earth to develop strategies for protecting human life from cosmic radiation.In conclusion, the study of radiation resistant organisms and materials is a rapidly evolving field with wide-ranging applications. From enhancing our understanding of life’s resilience in extreme conditions to improving safety in medical and industrial contexts, the exploration of radiation resistant properties holds great promise for the future. As we continue to unravel the secrets of these remarkable adaptations, we pave the way for innovations that could significantly impact both our understanding of biology and our technological advancements.

近年来，术语辐射抗性在各个领域，特别是在生物学和材料科学中引起了广泛关注。某些生物或材料在承受高剂量辐射时不受损害的能力是一个引人入胜的研究领域。辐射抗性生物，例如著名的缓步动物，由于其独特的适应能力，使它们能够在极端环境中生存，包括外太空，这让科学家们感到好奇。这些微小生物能够忍受致命于大多数生命形式的辐射水平，使它们成为与天体生物学及其他行星上生命潜力相关研究的关键对象。辐射抗性特性的机制复杂，涉及多种生物和化学过程。例如，许多辐射抗性生物具有高效的DNA修复系统，可以迅速修复辐射暴露造成的损伤。这种能力不仅保护了它们的遗传物质，还确保了它们在恶劣条件下的生存。科学家们正在研究这些机制，以了解如何将其应用于提高人类对辐射的抵抗力，特别是对于可能在长时间太空任务中面临增加辐射暴露的宇航员。除了生物生物体外，辐射抗性材料的概念对技术和工程有重要意义。例如，在核电站和利用辐射进行治疗的医疗设施中，开发辐射抗性材料对于确保安全和有效性至关重要。研究人员正在努力创造新的合金和聚合物，这些材料可以承受高剂量辐射而不会随着时间的推移而降解。这些进展可能导致反应堆的更安全设计和更好的辐射治疗设备，从而最终造福公共健康和安全。此外，理解辐射抗性特性可以帮助开发更好的防护装备，以保护在辐射重的环境中工作的人员，例如核设施和医院。通过将辐射抗性材料融入防护服中，我们可以增强那些定期接触辐射的个体的安全性。这在辐射成像和癌症治疗等日益增多的医疗程序背景下尤为重要。辐射抗性研究的影响超越了地球。随着我们探索宇宙，理解生命如何在高辐射环境中茁壮成长对于未来的火星及其他星球任务至关重要。如果我们要在其他星球建立人类殖民地，就必须向地球上的辐射抗性生物学习，以制定保护人类生命免受宇宙辐射的策略。总之，研究辐射抗性生物和材料是一个快速发展的领域，具有广泛的应用。从增强我们对生命在极端条件下的抵抗力的理解，到改善医疗和工业环境中的安全性，探索辐射抗性特性蕴藏着巨大的前景。随着我们继续揭开这些非凡适应能力的秘密，我们为可能显著影响生物学理解和技术进步的创新铺平了道路。