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引用次数: 0
摘要
感应电动机在电动汽车中应用广泛。在本文中,我们在Ansys motor - cad中模拟了一种类似于电动汽车应用的感应电机的有限元模型(FEM),并评估了其在最先进的绕组和槽衬层绝缘材料下的性能。我们还将电机的热性能和扭矩能力与一种新型绝缘材料进行了比较,该材料将绕组和槽式绝缘的最佳质量结合到槽式衬垫绝缘中。给出了3种绕组绝缘材料和4种槽衬材料12种不同测试用例的仿真结果。除了随机绕组外,最有效的绝缘材料也在发夹绕组上进行了验证。
Thermal Evaluation of Stator Liner and Winding Insulation in Power Traction Motors
Induction motors are widely used in Electric Vehicles (EVs). In this paper, we simulate a finite element model (FEM) of an induction motor, similar to those used in EV applications, in Ansys Motor-CAD and evaluate its performance under state-of-the-art winding and slot liner insulation materials. We also compare the motor's thermal performance and torque capability with a new insulation material that combines the best qualities of winding and slot insulation into slot liner insulation. Simulation results of 12 different test cases are presented for three winding insulation materials and four slot liner materials. In additional to random winding, the most effective insulation material is also validated on hairpin windings.
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