Three-dimensional beam theory; applications of elasticity theory to beam extension and compression, bending, torsion and transverse shearing; combined loading; analysis of thin-walled structures; stress concentrations; analysis of stability of aerospace structures; elements of structural failure, buckling; structural design considerations. Credits 3. 3 Lecture Hours.
Three-dimensional beam theory; applications of elasticity theory to beam extension and compression, bending, torsion and transverse shearing; combined loading; analysis of thin-walled structures; stress concentrations; analysis of stability of aerospace structures; elements of structural failure, buckling; structural design considerations. Credits 3. 3 Lecture Hours.
