This article is cited in 2 papers

Residual stress relaxation in a reinforced cylinder under creep, loaded by an axial force, torque, and internal pressure

V. P. Radchenko, V. V. Tsvetkov, M. N. Saushkin

Samara State Technical University

Abstract: A method is developed for solving a boundary-value problem of residual stress relaxation in a surface-reinforced hollow cylinder under combined loading by an axial force, torque, and internal pressure. Methods for determining the stress-strain state after reinforcement and its kinetics during creep are proposed. The effect of internal pressure along with a tensile load or torque on a thick-walled cylindrical sample made of ZhS6KP alloy after air-shot peening is investigated. Computational diagrams for stress tensor components under instantaneous temperature-force loading during creep and after unloading are given and analyzed. The behavior of unreinforced and reinforced samples at the stage of steady creep after complete residual stress relaxation is compared.

Keywords: residual stresses, surface plastic reinforcement, cylindrical sample, creep, relaxation, tension, torsion, internal pressure, boundary-value problem.

UDC: 539.376:539.4.014.13

Received: 24.01.2020
Revised: 24.01.2020
Accepted: 02.03.2020

DOI: 10.15372/PMTF20200412

 English version: Journal of Applied Mechanics and Technical Physics, 2020, 61:4, 583–592

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