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机译:螺旋液永磁体的拓扑优化
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
Princeton Plasma Physics Laboratory Princeton University P.O. Box 451 New Jersey 08 543 United States of America;
stellarator; permanent magnet; topology optimization; numerical optimization; simple coil; stellarator design;
机译:具有高强度硅钢应用的内部永磁同步电动机转子拓扑优化
机译:使用拓扑优化的平均扭矩最大化和齿轮扭转 - 扭矩 - 永磁辅助同步磁阻电动机的最小化
机译:拓扑优化的可切换永磁系统
机译:永磁体损耗不同定子拓扑的永磁游标电动机比较
机译:基于横向磁通拓扑的新型永磁同步电机的设计与优化
机译:用于板检测的可聚焦和可旋转剪切波周期性永磁电磁声换能器的优化
机译:基于多物理场和转子多拓扑结构抑制永磁同步电动机永磁退磁的策略与方法研究