Composite Plate Bending Analysis With Matlab Code Today

% Define flexural stiffness matrix D11 = (1/3) * (Q11 * h^3); D22 = (1/3) * (Q22 * h^3); D12 = (1/3) * (Q12 * h^3); D66 = (1/3) * (Q66 * h^3); D16 = (1/3) * (Q16 * h^3); D26 = (1/3) * (Q26 * h^3);

where $M_x$, $M_y$, and $M_{xy}$ are the bending and twisting moments, $q$ is the transverse load, $D_{ij}$ are the flexural stiffnesses, and $\kappa_x$, $\kappa_y$, and $\kappa_{xy}$ are the curvatures. Composite Plate Bending Analysis With Matlab Code

% Define plate properties a = 10; % plate length (m) b = 10; % plate width (m) h = 0.1; % plate thickness (m) E1 = 100e9; % Young's modulus in x-direction (Pa) E2 = 50e9; % Young's modulus in y-direction (Pa) G12 = 20e9; % shear modulus (Pa) nu12 = 0.3; % Poisson's ratio q = 1000; % transverse load (Pa) % Define flexural stiffness matrix D11 = (1/3)

% Assemble global stiffness matrix K = [D11, D12, D16; D12, D22, D26; D16, D26, D66]; $q$ is the transverse load