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机译:平均菌株对镍钛醇高循环疲劳的影响
Edwards Lifesciences One Edwards Way Irvine CA 92614 USA;
Edwards Lifesciences One Edwards Way Irvine CA 92614 USA;
Edwards Lifesciences One Edwards Way Irvine CA 92614 USA;
Materials Department University of California Santa Barbara. CA 93106 USA Department of Mechanical Engineering University of California Santa Barbara CA 93106 USA School of Engineering University of Aberdeen King's College Aberdeen AB24 3UE UK INM - Leibniz Institute for New Materials Campus D2 2 66123 Saarbrucken. Germany;
Materials Sciences Division. Lawrence Berkeley National Laboratory. Berkeley CA 94720 USA Department of Materials Science & Engineering University of California Berkeley. CA 94720. USA Department of Mechanical Engineering University of California Berkeley. CA 94720. USA;
Nitinol; Superelastic; Shape memory; High-cycle; Fatigue Reliability; Goodman; Weibull; Implant; Cardiovascular;
机译:超弹性镍钛诺医疗设备中多轴疲劳和寿命预测的等效应变/科夫曼森方法。
机译:一种预测SMA中高循环疲劳状态的直接方法:在镍钛合金支架中的应用
机译:多轴非比例荷载下镍钛诺医疗器械的疲劳行为
机译:一种直接方法,用于预测SMAS中的高周疲劳制度:镍钛烯醇支架
机译:通过基于单轴疲劳的方程式预测超弹性镍钛合金支架的低和高循环多轴疲劳。
机译:基于数字微镜设备(DMD)的一维纳米材料高循环扭转疲劳试验微机
机译:一种预测SMA中高循环疲劳状态的直接方法:在镍钛合金支架中的应用
机译:平均拉伸应力对某些反应器材料高周疲劳寿命和应变积累的影响