Sibel Zorlu Partal
Papers
2
Total Citations
10
H-Index
2
About
Sibel Zorlu Partal is an emerging researcher specializing in advanced motor design and electromagnetic systems, with a particular focus on spherical motors for multi-degree of freedom (MDOF) applications. Her work sits at the intersection of electrical engineering, robotics, and biomedical technology, addressing the growing demand for sophisticated motion systems in modern engineering applications. Partal's most notable contribution is her research into permanent magnet spherical motors, where she employs cutting-edge 3D finite element method (FEM) simulations alongside physical prototyping to optimize key performance parameters such as tilt angles, magnetic flux distribution, torque, and force generation. Her 2021 paper on the design and simulation of a permanent magnet spherical motor has garnered 8 citations, reflecting its relevance to the robotics, automotive, and biomedical communities. Her earlier 2020 study on doubly excited spherical motors further demonstrates her commitment to advancing three-dimensional motion capabilities for robotic applications. By bridging theoretical electromagnetic analysis with structural design and practical prototyping, Partal's research offers meaningful solutions for industries requiring precise, multi-axis motor control. Her work represents a valuable contribution to the development of next-generation actuators that could reshape how robots and medical devices achieve complex, nuanced movements.
Research Focus
Key Achievements
Top Papers
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