Andrii Masliennikov scite author profile

Andrii Masliennikov

5Publications

16Citation Statements Received

10Citation Statements Given

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Affiliations

National Technical University "Kharkiv Polytechnic Institute"

Publications

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Two-phase transverse flux machine with disc rotor for high torque low speed application

Hieke

Stamann

Lagunov

et al. 2017

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This paper presents a special two-phase transverse flux machine with disc rotor. Because of the noncomplex construction and by using simple 2D flux path and 3D printing methods the manufacturing costs are hold low. A design criterion is proposed for maximizing the torque density in the low speed range. To prove the concept and analyse the potential of this construction a first direct driven prototype was built. The experimental results confirm the viability of this proposal and provide the required information for further enhancements.

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The Magnetic System Analysis of the Transverse Flux Machine and Its Improvement

Masliennikov

Yehorov

Duniev

et al. 2019

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High-torque low-speed electric motor with a rolling rotor, as an alternative to existing gear motors

Єгоров¹,

Duniev²,

Masliennikov³

et al. 2019

Bulletin of NTU "Kharkiv Polytechnic Institute" Series: Electri

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Представлені різновиди двигунів з ротором, що котиться, що працюють від мереж змінної та постійної напруги через комутуючий керуючий пристрій, а також приведено їхні технічні показники. Показано рознесені 3D моделі кожного конструктивного виконання створених в програмі АСКОН Компас-3D. Проведено порівняння двигуна ДРК-125 з існуючими мотор-редукторами, показано варіант заміни редукторного електропривода на безредукторний. Представлено переваги та сфери застосування двигунів з ротором, що котиться. Ключові слова: двигун з ротором, що котиться, тривимірна модель, ексцентриситет, момент, частота обертання, мотор-редуктор, електропривод, надійність, сфери застосування. Представлены разновидности двигателей с катящимся ротором работающие от сети переменного и постоянного напряжения через коммутирующее управляющее устройство, а также приведены их технические характеристики. Показано разнесенные 3D модели каждого конструктивного исполнения созданных в программе АСКОН Компас-3D. Проведено сравнение двигателя ДРК-125 с существующими моторредукторами, показан вариант замены редукторного электропривода на безредукторный. Представлены преимущества и сферы применения двигателей с катящимся ротором. Ключевые слова: двигатель с катящимся ротором, трехмерная модель, эксцентриситет, момент, частота вращения, мотор-редуктор, электропривод, надежность, сферы применения. Purpose. Getting the dependence of three-tooth motor with a rolling rotor (MRR) torque value from the active length of its rotor by the calculation of magnetic field distribution in four different construction of the MRR. Methodology. Modeling of electromagnetic processes in ANSYS Maxwell 3D solution, which appeared in MRR with different type of construction and properties of its material. Results. The results of numerical and field calculation in the ANSYS Maxwell program of four design versions differing via the length of the rotor core active parts and the materials of the stator are presented. The distributions of the magnetic induction in the air gap were obtained, as well as the value of the torque for each MRR design. Also as a result we made the conclusions, that rotor with a half-length of the rotor has a best result of the torque value and less size of its main parts. Originality. MRR is a non-standard machine in which the rotor rolls over the stator surface with guaranteed eccentricity. Practical value. A 3D model of a high-torque low-speed MRR with an axial magnetic flux are presented, and the results of its modeling calculation and experimental researches are shown for various type of its construction with different size and material properties.

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The magnetic circuit analysis of the transverse magnetic flux generator in no-load mode

Єгоров¹,

Masliennikov²,

Duniev³

et al. 2020

Bulletin of NTU "Kharkiv Polytechnic Institute" Series: Electri

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Ways to Reduce the Resistance Torque During the Disk Rotor Spinning and to Increase the Electromotive Force in the Transverse Magnetic Flux Generator in No-Load Mode

Yehorov¹,

Duniev²,

Masliennikov³

et al. 2019

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