机译:减少薄壁复合工字梁翼梁的剪力滞后
Laboratory of Aeronautics, Faculty of Mechanical Engineering, University of Ljubljana, Ljubljana, Slovenia;
Laboratory of Aeronautics, Faculty of Mechanical Engineering, University of Ljubljana, Ljubljana, Slovenia;
Laboratory for Nonlinear Mechanics, Faculty of Mechanical Engineering, University of Ljubljana, Ljubljana, Slovenia;
Laboratory of Aeronautics, Faculty of Mechanical Engineering, University of Ljubljana, Ljubljana, Slovenia;
Minimum weight; Composite I-beam wing spar; Flanges aspect ratio; Shear-lag; Transition fillet; Web sandwich thickness;
机译:剪力滞对复合工字钢翼梁最大比抗弯刚度和强度的影响
机译:剪力滞对复合工字钢翼梁最大比抗弯刚度和强度的影响
机译:通过减少压电陶瓷的能量控制,同时收集和减轻多功能复合翼梁的阵风
机译:基于一阶波束理论的薄壁叠层复合I光静脉静态分析ritz解决方案
机译:设计用于制造和控制复合翼梁内部模具表面轮廓的多件式可移动心轴模具工具。
机译:通过加速疲劳寿命测试对滑翔翼复合材料翼梁进行可靠性和使用寿命评估
机译:使用缩放模型的薄壁复合I-梁的振动预测