Achieving optimal efficiency in axial flux motors hinges on meticulous stator design. The stator's geometry significantly influences the motor's air gap. Optimizing parameters such as lamination thickness is crucial for maximizing power delivery while minimizing losses. Advanced computational tools, including finite element analysis (FEA), facilita

Achieving peak performance in axial flux motors hinges on meticulous stator design. Parameters such as the number of slots, coil arrangement, and magnetic material composition directly influence torque output. Computational methods play a vital role in optimizing stator designs, enabling engineers to fine-tune these parameters for optimal output. A