On the primary resonance of non-homogeneous orthotropic structures with viscous damping within shear deformation theory
Özet
This study is one of the first attempts on the nonlinear forced vibration behaviors of nonhomogeneous
orthotropic (NHO) structural members with linear viscous damping at primary resonance within the shear
deformation theory (SDT). First, mechanical properties of double curved systems consisting of NHO materials
are mathematically modeled and nonlinear basic relations are established. Using these relations, nonlinear
basic partial differential equations are derived and reduced to ordinary differential equations with second and
third order nonlinearities by Galerkin procedure. Multiple-scales method is used to obtain the nonlinear forced
vibration frequency–amplitude dependence of double curved NHO structural members with damping. After
testing the correctness of the proposed methodology, the influences of non-homogeneity, damping, transverse
shear deformations and anisotropy on nonlinear forced vibration frequencies for various structural members
at the primary resonance are investigated and interpreted in detail.
Cilt
171Bağlantı
https://hdl.handle.net/11363/5787Koleksiyonlar
Aşağıdaki lisans dosyası bu öğe ile ilişkilidir: