Abstract.
An elastic-plastic solution is presented for an internally pressurized thick-walled plane strain cylinder of an elastic linear-hardening plastic material. The solution is derived in a closed form using a strain gradient plasticity theory. The inner radius of the cylinder enters the solution not only in non-dimensional forms but also with its own dimensional identity, which differs from that in classical plasticity based solutions and makes it possible to capture the size effect at the micron scale. The classical plasticity solution of the same problem is recovered as a special case of the current solution. To further illustrate the newly derived solution, formulas and numerical results for the plastic limit pressure are provided. These results reveal that the load-carrying capacity of the cylinder increases with decreasing inner radius at the micron scale. It is also seen that the macroscopic behavior of the pressurized cylinder can be well described by using classical plasticity based solutions.
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Gao, X.L. Strain gradient plasticity solution for an internally pressurized thick-walled cylinder of an elastic linear-hardening material. Z. angew. Math. Phys. 58, 161–173 (2007). https://doi.org/10.1007/s00033-006-0083-4
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DOI: https://doi.org/10.1007/s00033-006-0083-4