stray radiation

简明释义

杂散辐射

英英释义

例句

1.Workers are trained to recognize and mitigate stray radiation 散射辐射 exposure risks.

工人们接受培训以识别和减轻stray radiation 散射辐射暴露风险。

2.The new equipment has features to minimize stray radiation 散射辐射 emissions.

新设备具有最小化stray radiation 散射辐射排放的功能。

3.The lab's safety protocols include regular checks for stray radiation 散射辐射 in areas where radioactive materials are handled.

实验室的安全协议包括定期检查处理放射性材料区域的stray radiation 散射辐射。

4.In nuclear power plants, monitoring for stray radiation 散射辐射 is crucial for ensuring safety.

在核电站，监测stray radiation 散射辐射对于确保安全至关重要。

5.The technician used a lead shield to block any potential stray radiation 散射辐射 during the X-ray procedure.

技术员使用铅屏蔽来阻挡在X光检查过程中可能产生的stray radiation 散射辐射。

作文

In the field of radiation physics and safety, the term stray radiation refers to any unwanted or unintended radiation that escapes from a controlled area and can potentially expose individuals to harmful effects. This phenomenon is particularly significant in environments where radiation is used, such as hospitals, research laboratories, and nuclear power plants. Understanding and managing stray radiation is critical for ensuring the safety of both workers and the general public.Radiation is commonly utilized in various applications, including medical imaging and cancer treatment. For instance, X-rays and gamma rays are essential tools in diagnosing illnesses and delivering targeted therapies. However, if these forms of radiation are not properly contained, they can lead to exposure beyond the intended area. Stray radiation can occur due to equipment malfunction, improper shielding, or inadequate safety protocols. Therefore, it is crucial to implement strict measures to monitor and control radiation levels in such settings.One of the primary concerns associated with stray radiation is its potential health impact. Prolonged exposure to radiation, even in small amounts, can increase the risk of developing cancer and other serious health issues. As a result, regulatory agencies, such as the Environmental Protection Agency (EPA) and the Nuclear Regulatory Commission (NRC), set stringent guidelines for permissible radiation levels in various environments. These regulations help ensure that any stray radiation is kept well below harmful thresholds.To mitigate the risks associated with stray radiation, facilities that use radiation must employ several strategies. First, proper shielding materials, such as lead or concrete, should be used to contain radiation within designated areas. Additionally, regular maintenance and testing of radiation-emitting equipment are essential to prevent leaks. Furthermore, staff training on radiation safety practices can significantly reduce the likelihood of accidental exposure.Monitoring is another critical aspect of managing stray radiation. Facilities often utilize radiation detection instruments to continuously measure radiation levels in and around workspaces. These devices can alert personnel to any increases in radiation, allowing for immediate action to be taken. Regular audits and inspections also play a vital role in identifying potential sources of stray radiation and ensuring compliance with safety standards.In conclusion, the management of stray radiation is a fundamental aspect of radiation safety in various industries. By understanding its implications and implementing effective control measures, we can protect both workers and the public from the harmful effects of radiation exposure. The ongoing commitment to safety and compliance with regulatory guidelines will help ensure that the benefits of radiation technology can be harnessed without compromising health and safety. As we continue to advance in the field of radiation applications, the importance of addressing stray radiation will only grow, underscoring the need for vigilance and proactive management in all radiation-related activities.

在辐射物理和安全领域，术语stray radiation（散射辐射）指的是任何从控制区域逃逸的多余或意外辐射，可能使个体暴露于有害影响之下。这种现象在使用辐射的环境中尤为重要，例如医院、研究实验室和核电站。理解和管理stray radiation对于确保工作人员和公众的安全至关重要。辐射通常用于各种应用，包括医学成像和癌症治疗。例如，X射线和伽马射线是诊断疾病和进行靶向治疗的重要工具。然而，如果这些辐射形式没有得到妥善控制，它们可能导致超出预期区域的暴露。Stray radiation可能由于设备故障、不当屏蔽或安全协议不充分而发生。因此，实施严格措施以监测和控制此类环境中的辐射水平至关重要。与stray radiation相关的主要问题之一是其潜在的健康影响。即使是小剂量的长期辐射暴露，也可能增加患癌症和其他严重健康问题的风险。因此，环境保护局（EPA）和核监管委员会（NRC）等监管机构设定了各类环境中允许的辐射水平的严格指导方针。这些规定有助于确保任何stray radiation保持在远低于有害阈值的水平。为了减轻与stray radiation相关的风险，使用辐射的设施必须采取几种策略。首先，应使用适当的屏蔽材料，如铅或混凝土，以将辐射限制在指定区域。此外，定期维护和测试辐射发射设备对于防止泄漏至关重要。此外，员工在辐射安全实践方面的培训可以显著降低意外暴露的可能性。监测是管理stray radiation的另一个关键方面。设施通常利用辐射检测仪器持续测量工作空间内外的辐射水平。这些设备可以提醒人员辐射水平的任何增加，从而允许立即采取行动。定期审计和检查在识别潜在的stray radiation源以及确保遵守安全标准方面也发挥着至关重要的作用。总之，管理stray radiation是各行各业辐射安全的基本方面。通过理解其影响并实施有效的控制措施，我们可以保护工作人员和公众免受辐射暴露的有害影响。持续致力于安全和遵守监管指南将有助于确保辐射技术的好处能够被利用，而不妨碍健康和安全。随着我们在辐射应用领域的不断进步，解决stray radiation的重要性只会增加，强调在所有与辐射相关的活动中保持警惕和主动管理的必要性。