Advanced Mechanics of MaterialsTreats topics by extending concepts and procedures a step or two beyond elementary mechanics of materials and emphasizes the physical view -- mathematical complexity is not used where it is not needed. KEY TOPICS: Includes new coverage of symmetry considerations, rectangular plates in bending, plastic action in plates, and critical speed of rotating shafts. Expands the coverage of fatigue, the reciprocal theorem, semi-inverse problems in elasticity, thermal stress, and buckling. |
Contents
Contents | 7 |
STRESS PRINCIPAL STRESSES STRAIN ENERGY | 28 |
FAILURE AND FAILURE CRITERIA 51 7 | 51 |
Copyright | |
18 other sections not shown
Other editions - View all
Common terms and phrases
analysis applied approximate axes axial force axial stress bending moment boundary conditions buckling calculated cantilever beam centroidal circular cross section circumferential stress collapse load components compressive Consider constant criterion cross section curvature cylinder deformation Determine dimensions direction disk displacement edge equations equilibrium example expression FIGURE flange flexural stress formula fully plastic hinges integration internal pressure lateral deflection length linearly elastic load q M₁ magnitude maximum shear stress membrane midsurface neutral axis normal stress obtain plane plastic hinges plate Poisson's ratio principal stresses PROBLEM radial radius rectangular cross section residual stresses rotation sectorial area shear center shear flow shear stress shell shown in Fig simply supported solution static statically indeterminate strain energy surface tensile tensile stress thickness thin-walled tion torque torsion uniform unit load warping Winkler foundation yields zero ΕΙ στ σχ