This study proposes a solution to improve the analysis time of the Axial Flux Synchronous Reluctance Motor
(AF-SynRM) using the Finite Element Method (FEM) using the Finite Element Method (FEM). While accurate
results can be achieved through 2D and 3D FEM analyses in the design of electrical machines, the analysis
time becomes a significant consideration. The non-axisymmetric structure of the flux path in axial flux motors
poses challenges for accurate results in 2D FEM analyses. To overcome this issue, the study uses simulation
studies to convert axial flux motors into 2D linear models. In this study, a slice model approach is implemented
in the linear structure, and the influence of the number of slices on various motor parameters, such as torque,
torque ripple, back-EMF, loss, and efficiency, is analyzed and compared with 3D FEM analyses. Experimental
loss and efficiency results are also included in these analyses. This study is the first to simulate an AF-SynRM in
the 2D linear model. The accuracy of the results is verified experimentally.