Journal
IRANIAN JOURNAL OF SCIENCE AND TECHNOLOGY-TRANSACTIONS OF CIVIL ENGINEERING
Volume 47, Issue 3, Pages 1411-1423Publisher
SPRINGER INT PUBL AG
DOI: 10.1007/s40996-022-01020-7
Keywords
Thermo-mechanical buckling; Restrained columns; Temperature dependence; Differential quadrature method; Transfer-matrix method
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This work presents a thermo-mechanical buckling analysis of restrained columns under longitudinal steady-state heat conduction with different boundary conditions. The temperature distribution along the column is solved using the differential quadrature method, considering the temperature dependence of material properties. A piecewise model is introduced for the buckling analysis, dividing the column into finite piecewise elements assumed to have a uniform temperature distribution. The critical buckling load and mode are obtained using the transfer-matrix method based on the Euler-Bernoulli theory. The results are verified by comparing with literature and finite element method results. The parameter analysis reveals the effects of temperature distribution and temperature-dependent material properties on the critical buckling load and mode, and also examines the critical buckling temperatures at the two ends of the column.
In this work, thermo-mechanical buckling analysis of restrained columns with various boundary conditions under longitudinal steady-state heat conduction is presented. Considering the temperature dependence of material properties, the temperature distribution along the longitudinal direction of the column is solved by applying the differential quadrature method (DQM). A piecewise model is introduced for the buckling analysis: the column under a longitudinal non-uniform temperature field is divided into finite piecewise elements, each of which is assumed to be under uniform temperature distribution. Based on the Euler-Bernoulli theory, the critical buckling load and buckling mode are obtained by using the transfer-matrix method. The present results are verified by comparing with those in the literature and those obtained from the finite element method (FEM). The parameter analysis reveals the effects of temperature distribution and the temperature-dependent material properties on the critical buckling load and buckling mode of a restrained steel column, and the critical buckling temperatures at the two ends of the column are studied.
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