...
机译:压电/压电双材料中带有接触区的界面裂纹
Department of Mechanical Engineering, LTM, Paderborn University, Pohlweg 47-49, 33098 Paderborn, Germany;
Department of Theoretical and Applied Mechanics, National University, Nauchni Str. 13, Dnepropetrovsk 49050, Ukraine;
Department of Theoretical and Applied Mechanics, National University, Nauchni Str. 13, Dnepropetrovsk 49050, Ukraine;
interface crack; piezoelectric/piezomagnetic bimaterial; contact zone; electro-magnetic crack face conditions;
机译:压电双材料在热电机械载荷下的接触区界面裂纹的断裂力学评估II。不透电的界面裂缝
机译:压电双材料在热电机械载荷作用下具有接触区的界面裂纹的断裂力学评估I.电渗透界面裂纹
机译:组合压剪载荷作用下压电双材料界面裂纹的开放和接触区
机译:电导界面裂缝,用压电/压电磁性双材料中的接触区
机译:全关节置换中的骨水泥界面的断裂力学(无滑动裂纹,粘性区,生物材料)
机译:涂层材料裂纹的表征和预测:双材料中裂纹扩展的方向和长度
机译:压电双材料中带有接触区的导电界面裂纹