Improper orientation and positioning of stator components during the manufacturing process lead to mechanical interference and electromagnetic inefficiency. Precise alignment ensures structural integrity and optimal torque delivery in electric powertrains.

Centrifugal forces and mechanical stresses cause lamination shifting or deformation during high-speed operation. Ensuring structural integrity prevents catastrophic motor failure and maintains electromagnetic alignment.

Excessive heat accumulation in the excitation unit and rotor assembly causes material degradation and performance loss. Mitigating this thermal bottleneck prevents component failure and maintains electromagnetic efficiency in high-load vehicle drive cycles.