irradiator

简明释义

英[/ɪˈreɪdiˌeɪtər/]美[/ɪˈreɪdiˌeɪtər/]

n. [核] 辐照器

英英释义

单词用法

同义词

反义词

例句

1.The seed irradiator designed and built is very efficient and effective and has already been used extensively in radiobiological experiments and the accuracy of dosimetry.

放射性粒子离体照射模型的设计和建立，为研究粒子辐射生物效应提供了有效和重要的方法，并已广泛用于放射生物学和剂量学的研究。

2.The paper discusses, on energy density of laser beam, emanative angle of laser beam and malajustment degree of laser beam′s axes, the feasibility on adding irradiation of a certain laser irradiator.

从激光束的能量密度、瞄准光轴与激光束光轴的失调度、激光束的束散角三个方面论述某型激光照射器增程照射的可行性。

3.Available irradiation range of laser irradiator influences the efficiency of weapon system of laser half initiative end guilding shell.

在激光半主动末制导炮弹武器中，激光照射器的有效照射距离对武器系统的作战效能有着很大影响。

4.The measurement algorithm is fully tested with the measurement and calculation carried out for a MMW irradiator.

通过对一种毫米波辐射器的测量和计算对测量算法进行了整体检验。

5.But if you have, for example, a hypertension - in this case "the tablet" (the irradiator) will not help.

如果你患有高血压，本装置就帮不上忙了。

6.The paper discusses, on energy density of laser beam, emanative angle of laser beam and malajustment degree of laser beam′s axes, the feasibility on adding irradiation of a certain laser irradiator.

从激光束的能量密度、瞄准光轴与激光束光轴的失调度、激光束的束散角三个方面论述某型激光照射器增程照射的可行性。

7.This article summarized studys of blood irradiator application, including the meaning of blood irradiation, selection of the dose for blood irradiation and so on.

综述了血液辐照仪应用的研究进展，其中包括血液辐照的意义、血液辐照的剂量选择等。

8.Therefore, using irradiation blood is a trend, and blood irradiator may play an important role in medical field.

为此，使用辐照血已成为趋势，血液辐照仪将在医疗领域发挥重要的作用。

9.An irradiator is essential for ensuring the safety of certain food products.

对于确保某些食品的安全性，辐照器是必不可少的。

10.The laboratory uses an irradiator to sterilize medical equipment.

实验室使用辐照器来消毒医疗设备。

11.The research team evaluated the effectiveness of the irradiator in treating cancer cells.

研究小组评估了辐照器在治疗癌细胞方面的有效性。

12.In agriculture, an irradiator can help in the preservation of food by reducing microbial load.

在农业中，辐照器可以通过减少微生物负荷来帮助食品保存。

13.The irradiator emits gamma rays to kill harmful bacteria in the water supply.

辐照器发出伽马射线以杀死水源中的有害细菌。

作文

In the modern world, technology has become an integral part of our daily lives. One of the fascinating devices that have emerged from advancements in science is the irradiator. An irradiator is a device that emits radiation, typically used for sterilization, treatment, or research purposes. The application of irradiators spans various fields, including medicine, food safety, and industrial processes. This essay will explore the significance of irradiators, their working principles, and their impact on society.Firstly, the primary function of an irradiator is to expose materials or substances to radiation in order to achieve specific outcomes. In the medical field, for example, irradiators are essential for sterilizing surgical instruments. By exposing these instruments to gamma rays or electron beams, the irradiator effectively kills bacteria and other pathogens, ensuring that they are safe for use in surgeries. This process not only protects patients from infections but also enhances the overall quality of healthcare.Moreover, irradiators play a crucial role in food safety. Food irradiation is a technique used to eliminate harmful microorganisms from food products, thereby extending their shelf life and making them safer for consumption. When food is exposed to controlled doses of radiation from an irradiator, it undergoes a process that kills bacteria, parasites, and insects. This method has been endorsed by various health organizations worldwide, as it significantly reduces the risk of foodborne illnesses.In addition to their applications in medicine and food safety, irradiators are also utilized in industrial processes. For instance, certain materials such as plastics and rubber can be treated with radiation to enhance their properties. This process, known as cross-linking, improves the durability and heat resistance of these materials, making them suitable for various applications in manufacturing. By using an irradiator, industries can produce higher-quality products while minimizing waste and energy consumption.The working principle of an irradiator is based on the emission of ionizing radiation. There are different types of irradiators, including gamma ray irradiators, electron beam irradiators, and X-ray irradiators. Each type has its own advantages and applications depending on the intended use. For instance, gamma ray irradiators are often used for large-scale sterilization due to their ability to penetrate deeply into materials, while electron beam irradiators are preferred for faster processing times.Despite the numerous benefits of irradiators, there are also concerns regarding their safety and environmental impact. The use of radiation raises questions about potential exposure to humans and the environment. It is essential for operators of irradiators to adhere to strict safety protocols to minimize any risks associated with radiation exposure. Furthermore, ongoing research is necessary to ensure that the use of irradiators remains safe and effective.In conclusion, irradiators are valuable tools that have revolutionized various industries, particularly in medicine and food safety. Their ability to emit radiation for sterilization and treatment purposes has made significant contributions to public health and safety. As technology continues to advance, the role of irradiators is likely to expand further, leading to new applications and innovations. Understanding the workings and implications of irradiators is crucial for harnessing their potential while ensuring safety and efficacy in their use.

在现代社会，科技已成为我们日常生活中不可或缺的一部分。随着科学进步而出现的迷人设备之一是irradiator。irradiator是一种发射辐射的设备，通常用于消毒、治疗或研究目的。irradiators的应用跨越多个领域，包括医学、食品安全和工业过程。本文将探讨irradiators的重要性、工作原理及其对社会的影响。首先，irradiator的主要功能是使材料或物质暴露于辐射中，以实现特定结果。例如，在医学领域，irradiators对于消毒外科器械至关重要。通过将这些器械暴露于伽马射线或电子束中，irradiator有效地杀死细菌和其他病原体，确保它们在手术中安全使用。这一过程不仅保护患者免受感染，还提高了医疗服务的整体质量。此外，irradiators在食品安全中也发挥着重要作用。食品辐照是一种消除食品产品中有害微生物的技术，从而延长其保质期并使其更安全可食用。当食品暴露于来自irradiator的控制剂量辐射时，它会经历一种杀死细菌、寄生虫和昆虫的过程。这种方法得到了全球多个健康组织的认可，因为它显著降低了食源性疾病的风险。除了在医学和食品安全中的应用外，irradiators还被用于工业过程。例如，某些材料如塑料和橡胶可以通过辐射处理来增强其特性。这一过程称为交联，改善了这些材料的耐用性和耐热性，使其适用于制造中的各种应用。通过使用irradiator，工业可以生产出更高质量的产品，同时减少废物和能源消耗。irradiator的工作原理基于电离辐射的发射。有不同类型的irradiators，包括伽马射线irradiators、电子束irradiators和X射线irradiators。每种类型都有其自身的优点和应用，具体取决于预期用途。例如，伽马射线irradiators由于能够深入穿透材料，通常用于大规模消毒，而电子束irradiators则因处理时间较快而受到青睐。尽管irradiators带来了众多好处，但也存在关于其安全性和环境影响的担忧。辐射的使用引发了人们对人类和环境潜在暴露的质疑。操作irradiators的人员必须严格遵循安全协议，以最大限度地减少与辐射暴露相关的任何风险。此外，持续的研究是必要的，以确保irradiators的使用保持安全和有效。总之，irradiators是宝贵的工具，已彻底改变了多个行业，特别是在医学和食品安全方面。它们发射辐射进行消毒和治疗的能力对公共健康和安全做出了重大贡献。随着科技的不断进步，irradiators的角色可能进一步扩大，导致新的应用和创新。理解irradiators的工作原理及其影响对于利用其潜力，同时确保其使用的安全性和有效性至关重要。