Maximizing the Fundamental Frequency of Laminated Composite Plates with Optimally Shaped Curvilinear Fibers
スポンサーリンク
概要
- 論文の詳細を見る
A new design method is proposed here to maximize the fundamental frequency of laminated composite plates reinforced by curvilinear fibers. Spline functions represent arbitrarily shaped fibers and the Ritz method generates frequency equations. The optimum curvilinear shapes are searched for the maximum fundamental frequencies using a genetic algorithm, and increments of data points which define the spline shape are used as design variables under the limited range of undulation. Comparison of the present analysis method gives good agreement with the finite element method in terms of natural frequencies and vibration modes, and the optimized results show that the present plate with optimally shaped curvilinear fibers gives higher or equal fundamental frequencies than those of conventional plates with optimally oriented parallel fibers.
著者
-
HONDA Shinya
Division of Human Mechanical Systems and Design, Hokkaido University
-
NARITA Yoshihiro
Division of Human Mechanical Systems and Design, Hokkaido University
-
SASAKI Katsuhiko
Division of Human Mechanical Systems and Design, Hokkaido University
関連論文
- Maximizing the Fundamental Frequency of Laminated Composite Plates with Optimally Shaped Curvilinear Fibers
- GS(6)-27(GSW0044) Interaction Between Cyclic Plasticity and Creep of Type 304 Stainless Steel
- OS10(2)-7(OS10W0040) Effect of Lead and Lead-Free Solders on Bend of Substrate
- Plasticity-Creep Separation Method for Viscoplastic Deformation of Lead-Free Solders(Advanced Technology of Experimental Mechanics)
- OS10(2)-8(OS10W0188) Plasticity-Creep Separate Method for Viscoplastic Deformation of Lead-Free Solders
- Correlations between Thermal Conductivity and Inelastic Deformation of Aluminum Based Composites Containing VGCF-CNT Network
- Multidisciplinary Design Optimization of Surface Shapes and Lay-Up Configurations for Laminated Composite Shells