Developments in Stress Analysis for Pressurised ComponentsR. W. Nichols |
Contents
Experiments on Spherical Pressure Vessels with PadReinforced | 67 |
A Collocation Method for Stress Analysis of Shells Using Finite | 99 |
Creep Deformations of Shells of Revolution Under Asymmetrical | 119 |
Copyright | |
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analysis applied Araldite assumed axial axisymmetric base shell beam behaviour bending stresses bolt tightening force bolt-tightening boundary conditions branch thickness calculated components constants creep deformations cylindrical shell eqns equations equilibrium experimental results finite element analysis finite element method flange rings friction gap elements gasket face geometry given inch increments Inner shell inside integral reinforcement intersection kN/m² lbf/in² x 10³ linear lower flange m₂ main shell maximum Membrane stress meridional MN/m² N₁ nodes non-linear nozzle obtained P₂ pad reinforcement piping plastic Poisson's ratio predicted pressure vessel pressurisation procedure radial displacement radius raised surface gauges reference reinforcing pad rigid ring approach rotations seismic analysis shells of revolution shown in Fig solution spherical shell strain gauges stress concentration stress distributions Stress lbf/in² stress resultants symmetrical loading T₁ theoretical theory thin shell unit length University of Manchester unsymmetrical values vector weld Young's modulus ΣΣ хо