Abstract

Introduction. X-ray inspection plays a unique role among all nondestructive testing methods for products and materials due to sufficiently high resolution and high penetrability. The present study is designed to consider the key features of microfocus X-ray sources, their areas of application, and main technical characteristics.Aim. The paper aims to systematize information and review modern X-ray radiation sources for the implementation of microfocus radiography.Materials and methods. The main designs of microfocus X-ray tubes (soldered and demountable) were considered relying on the experience of the St Petersburg State Electrotechnical University in developing and operating such equipment, as well as the experience and open-access publications of foreign researchers and developers. Data collected by leading research teams over the last ten years were analyzed.Results. The paper presents design features for each main type of microfocus X-ray tubes – soldered and demountable. All key structural elements are considered: an anode assembly, a cathode assembly, and a focusing system. The influence of anode target material on the X-ray tube radiation spectrum is shown. An original design of a liquid-anode microfocus X-ray tube is described to demonstrate its key features and advantages. In addition, the paper gives an overview of cathodes used in microfocus X-ray tubes (tungsten cathode and lanthanum hexaboride cathode), as well as providing a detailed description of calculations performed for focusing systems. Finally, the designs of modern X-ray tubes are presented.Conclusion. Modern X-ray tubes are high-tech products that allow for high-resolution research of various objects. The main advantage of testing performed with the use of X-ray tubes consists in high resolution (micron and submicron). The X-ray images of test objects used to determine their spatial resolution are given, which clearly illustrate the vast possibilities of this technology. In addition, ways to improve microfocus X-ray tubes are briefly discussed. The considered materials can be useful in selecting a nondestructive testing tool, as well as in developing and creating X-ray systems on the basis of microfocus X-ray tubes.

Highlights

  • Для того чтобы определить истинный вид спектра излучения трубки, необходимо учесть те изменения, которые претерпит пучок первичного рентгеновского излучения (РИ) при взаимодействии с мишенью анода, выходным окном трубки и фильтром

  • Рентгеновская трубка с жидким анодом отличается сравнительно малым размером фокусного пятна – около 5 мкм

  • Direct synthesis of carbon nanotube field emitters on metal substrate for open-type X-ray source in medical imaging / A

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Summary

Микрофокусные рентгеновские трубки

Ключевые слова: рентгеновские трубки, микрофокусная рентгенография, рентгеновское излучение, неразрушающий контроль, разборная трубка, отпаянная трубка, жидкий анод. Статья поступила в редакцию 29.04.2021; принята к публикации после рецензирования 04.08.2021; опубликована онлайн 29.11.2021

Review article
Пучок электронов
По оси y
Вольфрамовый катод
Molecular turbopump
Область линзы r
Транспортирующие катушки
Список литературы

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