Electron accelerator for energy up to 5.0 MeV and beam power up to 50 kW with Х-ray converter

The paper describes the industrial electron accelerator ILU-10 for electron energy up to 5 MeV and beam power up to 50 kW specially designed for use in industrial applications. The ILU-10 accelerator generates the vertical electron beam. The beam line turns the beam through an angle of 90° and transports the beam to the vertically posed Xray converter to generate the horizontal beam of X-rays.Приводиться опис прискорювача електронів ІЛУ-10 на енергію 5 МеВ потужністю 50 кВт, спеціально розробленого для таких комплексів. Для спрощення конструкції конвеєрної системи подачі оброблюваної продукції в зону опромінення використовується випускний пристрій з поворотом пучка на 90 градусів інаступною конвертацією електронного пучка в гамма-випромінювання на вертикально розташованій мішені.Приводится описание ускорителя электронов ИЛУ-10 на энергию 5 МэВ мощностью 50 кВт, специально разработанного для таких комплексов. Для упрощения конструкции конвейерной системы подачи обрабатываемой продукции в зону облучения используется выпускное устройство с поворотом пучка на 90 градусов и последующей конвертацией электронного пучка в гамма-излучение на вертикально расположенной мишени

Industrial electron accelerators type ILU

The paper describes ILU type industrial electron accelerators. Their main parameters, design, principle of action, electron beam extraction devices, wide set of auxiliary equipment for various technological processes and ways of their usage are discussed as well.Описаны промышленные ускорители электронов серии ИЛУ. Приведены основные параметры, устройство и принцип действия. Дается краткое описание систем выпуска ускоренного пучка в атмосферу для различных технологических процессов.Описано промислові прискорювачі електронів серії ЫЛП. Наведено основні параметри, будова і принцип дії. Дається короткий опис систем випуску прискореного пучку в атмосферу для різних технологічних процесів

Martensitic Transformation and Shape Memory Effect in Polycomponent TiNi-Based Alloys

The results of martesitic transformation (MT) and shape memory effect (SME) in quaternary Ti50(NiCoCu)50’ Ti50(NiFeCu)50 and (TiAl)50(NiCu)50 alloys studies arc generalized in this paper. On alloying TiNi simultaneously by two elements, their individual effect on MT and SME is conserved. Martensitic transformations B2→R and B2→B19' are almost simultaneously realizing in a binary TiNi. One can selectively control each of two MT channels by selecting property of alloying elements. As a result, the alloys having any sequences of MT and their realizations temperatures, including simultaneous realization of two MTs at low temperatures, which was not observed earlier, can be produced

Temporal Dynamics of Holmium-doped Fiber Laser with an Intracavity Mach-Zehnder Interferometer

An all-fiber scheme of Holmium laser with active Q-switching, implemented by an intracavity Mach-Zehnder interferometer, was realized. Influence of the cavity output mirror reflection coefficient (4 and 20%), modulation voltage and different pump power levels on the pulse duration was investigated. The minimum pulse duration of 0.62 µs was obtained in a scheme with an output Bragg grating reflection coefficient of 20%. Wherein the peak power was 13 W. © 2020 IEEE

Model for Assessing the Asymmetry of a Pigmented Neoplasm

Abstract The paper presents the results of the development of a method for recognizing skin neoplasms based on a model for assessing the asymmetry of the shape of the pigment area of the pathological growth of the epidermis and (or) dermis. Images of pigmented skin neoplasms obtained using a dermatoscope were considered as initial data. To analyze the images, a model was used to calculate the shape asymmetry coefficients obtained relative to the main axes of inertia of the neoplasm, which makes it possible to obtain values independent of the angle of rotation of the images

Image Segmentation of Skin Neoplasms Using the Active Contour Method

Abstract Computer vision technologies are being actively introduced into modern life, including medical practice. The development of such technologies has led to the emergence of computer systems that allow the detection and classification of skin diseases with a quality comparable to and in some cases exceeding human capabilities. The article reveals the method of automatic segmentation on the basis of dermatoscopic images provided by doctors obtained using a digital optical device—a dermatoscope. The main goal of the model being developed is to identify the neoplasm zone and areas of hyperpigmentation on images of skin neoplasms for further integration into medical decision support systems for diagnosing of melanoma. As a result of the work carried out, a software package was created that allows segmentation of the neoplasm. As a demonstration of the method, experimental studies of the detection of melanoma boundaries and zones of areas of signs on images of skin neoplasms are presented. The developed system can be used for diagnostic research and educational purposes