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机译:通过气隙磁场分布优化设计提高线性执行器的磁力
Toyota Research Institute, Toyota Motor Engineering & Manufacturing North America, Ann Arbor, Ml 48105, USA, Korea Aerospace University, School of Aerospace and Mechanical Engineering, Coyang-city, Geonggi-do 412-791, South Korea;
Toyota Research Institute, Toyota Motor Engineering & Manufacturing North America, Ann Arbor, Ml 48105, USA;
Toyota Research Institute, Toyota Motor Engineering & Manufacturing North America, Ann Arbor, Ml 48105, USA;
Toyota Research Institute, Toyota Motor Engineering & Manufacturing North America, Ann Arbor, Ml 48105, USA,Toyota Central Research 6- Development Labs., Nagakute, Aichi 480 1192, Japan;
magnetic field manipulation; linear actuators; magnetic forces; structural topology optimization;
机译:基于能级集的拓扑优化设计非线性铁磁材料电磁执行器
机译:用于线性直驱电磁执行器的阿基米德螺旋挠性轴承设计的电磁力模型
机译:气隙形状的优化,可减小电力电磁场中的边缘磁场涡流损耗
机译:U形无铁永磁线性同步电动机的气隙磁场设计优化
机译:具有等离激元纳米结构的电磁场的操纵:非线性频率混合,光学操纵,硅光电二极管中光电流的增强和抑制以及表面增强光谱。
机译:无现场点位置梯度场和铁磁性聚合物比的优化用于增强血管磁控聚合物基微型微生物的导航
机译:通过优化的线圈电流使用气隙磁场操纵磁力增强