Aerospace Structures

Hypotheses, Previous knowledge, Objectives and skills, Description of contents, Bibliography.

Structure definition, structural requirements, phases of structural design, types of structural analysis, Loads classification, load models.

Wing functions, wing elements, fuselage functions, fuselage types, fuselage elements, Cutout, Stabilizers structure.

Truss structures, method of resolution, frame structures, method of resolution, lattice structures

Kinematics, normal stresses, shear stress field on open sections, stress field on single-cell closed sections.

Concept of shear centre, alternate method to calculate shear stress, stress field on multiple cell sections, combined open and closed section.

Stress field on open sections with one and several branches, stress field on single-cell closed sections, stress field on multiple cell sections.

Definitions, Hypotheses, Equilibrium equations, Compatibility equations, Boundary conditions

Bending equations in polar coordinate system, internal forces in polar coordinate system, solution of the differential equation, boundary conditions.

General definition, differences between plates and shells, advantages of shell structures, Kirchhoff-Love hypothesis, membrane theory, basic geometrical relations, internal forces and equilibrium equations, strains and displacements.

Laminate definition, anisotropic behaviour, lamina stiffness matrix, hypotheses, laminate kinematics, internal forces, laminate stiffness matrix, laminate configurations, laminate equivalent constants.

Failure mechanisms, global failure criteria, intralaminar failure criteria, delamination criteria.

Analysis of beams, stresses in solid beams, displacements in solid beams, stresses in thin-walled beams, displacements in thin-walled beams.

Sandwich definition, sandwich advantages, hypotheses, stress field in sandwich beams, strains in sandwich beams, displacements.