在这个项目中,学生将用多种高性能的纤维和不同的铺层设计来制造复合材料。
In this project, students will fabricate composite materials using different high performance fibres and lay-up designs.
设计变量可包含复合材料结构的铺层方向角。广义气动力导数计及正交振动形态导数的影响。
The design variables include the ply orientations of composite material, and the derivatives of generalized aerodynamic forces involve normal modes derivatives.
同时,对芳纶复合材料手糊轻型头盔的铺层设计进行了探讨。
The lay up design of light helmets prepared by aromatic polyamide fibre reinforced composite is also discussed.
文中首先对复合材料结构进行了有限元分析,在此基础上提出对复合材料层合板的铺层角度、铺层厚度的优化设计算法。
After the structure is analyzed by FEM, an algorithm of ply orientation Angle optimization and ply thickness optimization is presented.
对S型复合材料进气道进行了铺层结构设计与分析。
Fiber placement layers of s inlet duct are designed and analyzed by request of design.
借助于等效弯曲刚度法和遗传算法,建立了一种复合材料加筋板铺层顺序优化设计算法。
A stacking sequence optimization design approach of composite stiffened panel was built up based on equivalent bending stiffness method and Genetic Algorithms (GA).
借助于等效弯曲刚度法和遗传算法,建立了一种复合材料加筋板铺层顺序优化设计算法。
A stacking sequence optimization design approach of composite stiffened panel was built up based on equivalent bending stiffness method and Genetic Algorithms (GA).
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