Solid Mechanics Course No. ME213.

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Solid Mechanics Course No. ME213

Thick cylinder Graphical treatment -Lame line The Lame equations when plotted on stress and 1 /r2 axes produce straight lines. Both lines have exactly the same intercept A and the same magnitude of slope B, the only difference being the sign of their slopes. ME213 Solid Mechanics

Thick cylinder The two are therefore combined by plotting hoop stress values to the left of the σ-axis (again against 1 /r2) instead of to the right to give the single line. In most questions one value of σr, and one value of σH, or alternatively two values of σr, are given. In both cases the single line can then be drawn. When a thick cylinder is subjected to external pressure only, the radial stress at the inside radius is zero and the graph becomes the straight line ME213 Solid Mechanics

Thick cylinder Lame’s line solution for cylinder with internal and external pressures ME213 Solid Mechanics

Thick cylinder Lame’s line solution for cylinder subjected to external pressure only. ME213 Solid Mechanics

Thick cylinder ME213 Solid Mechanics

Thick cylinder ME213 Solid Mechanics

Thick cylinder ME213 Solid Mechanics

Thick cylinder ME213 Solid Mechanics

Thick cylinder ME213 Solid Mechanics

Thick cylinder ME213 Solid Mechanics

Thick cylinder ME213 Solid Mechanics

Compound Cylinders In thick cylinders Large variation in hoop stress across the wall of a cylinder subjected to internal pressure. The material of the cylinder is not therefore used to its best advantage. To obtain a more uniform hoop stress distribution, cylinders are often built up by shrinking one tube on to the outside of another. ME213 Solid Mechanics

Compound Cylinders The material of the cylinder is not therefore used to its best advantage. To obtain a more uniform hoop stress distribution, cylinders are often built up by shrinking one tube on to the outside of another. Outer tube contracts on cooling the inner tube is brought into a state of compression. The outer tube will conversely be brought into a state of tension. If this compound cylinder is now subjected to internal pressure the resultant hoop stresses will be the algebraic sum of those resulting from internal pressure and those resulting from shrinkage ME213 Solid Mechanics

Compound cylinders-combined internal pressure and shrinkage effects. ME213 Solid Mechanics

Compound Cylinders ME213 Solid Mechanics

Compound Cylinders Same materials The method of solution for compound cylinders constructed from similar materials is to break the problem down into three separate effects: (a) shrinkage pressure only on the inside cylinder (b) shrinkage pressure only on the outside cylinder (c) internal pressure only on the complete cylinder ME213 Solid Mechanics

Compound Cylinders Same materials For each of the resulting load conditions there are two known values of radial stress which enable the Lame constants to be determined in each case. ME213 Solid Mechanics

Compound Cylinders Same materials For each condition the hoop and radial stresses at any radius can be evaluated and the principle of superposition applied, i.e. the various stresses are then combined algebraically to produce the stresses in the compound cylinder subjected to both shrinkage and internal pressure. In practice this means that the compound cylinder is able to withstand greater internal pressures before failure occurs or, alternatively, that a thinner compound cylinder (with the associated reduction in material cost) may be used to withstand the same internal pressure as the single thick cylinder it replaces. ME213 Solid Mechanics

Compound Cylinders Distribution of hoop and radial stresses through the walls of a compound cylinder ME213 Solid Mechanics