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Article

Stress-strain state of wooden beams with external reinforcement

Михаил ЛукинVladimir State University named after Alexander and Nikolay Stoletovs, Vladimir, Russian FederationСветлана РощинаVladimir State University named after Alexander and Nikolay Stoletovs, Vladimir, Russian FederationAleksey GribanovVladimir State University named after Alexander and Nikolay Stoletovs, Vladimir, Russian FederationA Ya NaychukBrest State Technical University, Brest, Belarus
2020en
ABI

Abstract

Abstract The stress-strain state of wood-composite beams was studied numerically. Numerical studies were performed on wood-composite floor beams with a cross-section size of 100×240 mm and a length of 4.8 m. it was Experimentally proved that the deformability of wood-glued beams is reduced by 1.8…2.1 times, compared to conventional wooden beams. For wooden beams in the elastic design stage, the limiter is the calculation of the 2nd group of limit States (for stiffness), for composite beams, the calculation of the 1st group of limit States (for strength. The calculation proved that the deformability of wood composite beams is reduced by 1.8…2.1 times, compared to conventional wooden beams. The high efficiency of the finite element method calculation for evaluating the criteria of load-bearing capacity of wood-composite beams up to their destruction is proved.

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