机译:模式I疲劳分层生长与多向复合层压板中的纤维桥接
Harbin Inst Technol Dept Astronaut Sci &
Mech Harbin Heilongjiang Peoples R China;
Harbin Inst Technol Dept Astronaut Sci &
Mech Harbin Heilongjiang Peoples R China;
Harbin Inst Technol Dept Astronaut Sci &
Mech Harbin Heilongjiang Peoples R China;
Purdue Univ Sch Aeronaut &
Astronaut W Lafayette IN 47907 USA;
Northwestern Polytech Univ Sch Aeronaut Xian Shaanxi Peoples R China;
AVIC Xian Shaanxi Peoples R China;
Delft Univ Technol Fac Aerosp Engn Struct Integr &
Composites Grp Delft Netherlands;
Delft Univ Technol Fac Aerosp Engn Struct Integr &
Composites Grp Delft Netherlands;
Fatigue; Delamination; Fibre bridging; Multidirectional composite laminates;
机译:模式I疲劳分层生长与多向复合层压板中的纤维桥接
机译:疲劳载荷下多方向复合材料层板的i型分层生长
机译:纤维桥接对不同厚度复合材料层合板I型疲劳分层Paris关系的影响
机译:复合材料层合板Ⅰ型疲劳脱层中纤维桥联贡献的表征
机译:交叉循环复合材料在压缩循环(疲劳)载荷下的分层生长行为
机译:桥梁悬架用层压碳纤维增强聚合物带的疲劳性和耐久性
机译:表征模式I /模式II单向纤维增强聚合物层压板中的疲劳分层生长