Automated identification of the origin of energy loss in non-oriented electrical steel is crucial for improving material efficiency and performance in various applications. To address this challenge, researchers have developed an innovative method using an extended Ginzburg–Landau free energy framework. This advanced approach allows for a comprehensive analysis of the factors contributing to energy loss in these materials. By accurately pinpointing the origins of energy dissipation, the method provides valuable insights that can guide the design and manufacturing of more efficient electrical steels. This technology holds significant potential for enhancing the sustainability and cost-effectiveness of electrical devices, contributing to broader energy conservation efforts.
