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Публікація 3D-bioprinting system for fabrication of alginate microfibers(АНПРЭ, ХНУРЭ, Издательство «Точка», 2017) Avakian, A.The given work is devoted to the theme of 3D-printing of alginate microfibers with encapsulated stem cells which are used for the nerve regeneration. The motorized printing device is developed and tested. The appropriate software controls the device and allows to design the printing structures.Публікація A Small-Sized Robot Prototype Development Using 3D Printing(FACULTY OF MECHANICAL ENGINEERING BIALYSTOK UNIVERSITY OF TECHNOLOGY, 2023) Nevliudov, I.; Yevsieiev, V.; Maksymova, S.; Chala, O.The work presents the development of all parts of a mobile small-sized robot, except engines and electronics, using 3D printing technology. For control it is proposed to use ESP32-СAM, for which a place is provided in the design. This will allow the robot to broadcast a video stream via Wi-Fi.Публікація Development of natural models of human lungs by means of rapid prototyping(RS Global S. z O.O, 2019) Jiao, Hankun; Perepelitsa, I. M.; Nakonecniy, I. M.; Носова, Я. В.; Tymkovych, M. Y.The initial data were spiral-computer tomographic sections of the lung area, presented in the DICOM format. It should be noted that the thickness of the transition surface formed was chosen on the assumption that the volume would be reduced by 5 times. Using the FreeCAD software, the bracket was modeling in real physical dimensions, which combined into one model with the lungs. Next, the resulting model was loaded into specialized software MeshMixer. It allows you to perform various manipulations on three-dimensional models before printing. With its use, the model was dividing in a horizontal plane into five parts. After that, each part converted to G-code using a Cura slicer, and printed with PLA plastic on a 3D printer Wanhao Duplicator i3. Then the printed parts must be join together using a guide.Публікація Lighting Control Module Development(Journal of Universal Science Research, 2023) Vizir, Y.; Chala, O.; Maksymova, S.; Ahmad AlkhalailehLighting control is an extremely pressing task in the modern world. On the one hand, poor lighting leads to reduced safety, including injuries and deaths. On the other hand, excessive lighting leads to excess energy waste, which should be avoided. This article describes the development of a lighting control module based on Arduino Mega. The article provides a selection of the necessary equipment, and a block diagram of the proposed device is also created. A 3D model of the device case was developed, and the case was also printed on a 3D printer. The assembly of the developed lighting control module is proposed.Публікація Компьютерная капилляроскопия как диагностический критерий оценки методов радиоволнового и лазерного воздействия на нижние носове раковины при хроническом гипертрофическом рините(ТОВ «ВІСТКА», 2019) Шушляпина, Н. О.; Лупырь, А. В.; Ященко, М. И.; Носова, Я. В.; Худаева, С. А.; Чернякова, А. Е.; Анохина, Е. А.Среди рассмотренных видов малоинвазивной хирургии хронического гипертрофического ринита более эффективным и менее травматичным является метод монополярной радиоволновой редукции нижних носовых раковин.Публікація Матеріали для виготовлення мікросхем на основі 3D технологій(ХНУРЕ, 2025) Білокінь, В. К.The study explores the use of 3D printing as one of the promising methods for manufacturing microelectronic components, particularly from powdered metals. The research examines the physicochemical properties of powdered metals, their technological suitability for additive manufacturing, and the main challenges associated with production costs and the need for material standardization. Special attention is given to the application of 3D printing in the production of microchip enclosures using polymer materials. The characteristics of key thermoplastic polymers, such as PLA, PETG, and ABS, are analyzed, along with their advantages and limitations in the context of microelectronics.