Simulation of creep of a rectangular wooden beam under prolonged static load

Autor: B. M. Yazyev, Song Xuanzhen, M. А. Magomedov, S. V. Litvinov, V. V. Kuznetsov
Jazyk: ruština
Rok vydání: 2024
Předmět:
Zdroj: Вестник Дагестанского государственного технического университета: Технические науки, Vol 51, Iss 3, Pp 227-236 (2024)
Druh dokumentu: article
ISSN: 2073-6185
2542-095X
DOI: 10.21822/2073-6185-2024-51-3-227-236
Popis: Objective. Depending on the stress level, the operation of wooden beams under prolonged load is characterized by both linear and nonlinear creep. This has been shown by numerous experimental studies of wood. The theoretical description of these processes is poorly studied or presented extremely rarely. One of the priority areas in the calculations of wooden structure elements is the derivation of resolving equations of linear or nonlinear creep for various types of stress-strain state. Method. The Maxwell-Thomson equations are used as relations establishing the relationship between stresses and deformations. The technique was tested by comparing the solution with the calculation of well-known researchers. An example of calculation is given for various boundary conditions for fixing a beam of rectangular crosssection loaded with a uniformly distributed load. The deflection value is determined by the grid method. Result. A program has been developed for calculating in the MATLAB package with the possibility of varying the initial data and displaying a graph of the dependence of displacement, bending moment on time. The comparison of the maximum deflection value with the analytical solution is given. It is noted that the stresses practically do not change during creep. Conclusion. The proposed approach can be applied to the analysis of the stress-strain state and bearing capacity of wooden beams of arbitrary cross-section. There are no restrictions on boundary conditions and loading type, and the beam material can be not only wood, but also fiberglass.
Databáze: Directory of Open Access Journals