Jakościowe aspekty w konstrukcjach meblowych. Poprawa jakości poprzez użycie różnych materiałów konstrukcyjnych

The research problem described in the article concerned the insufficient strength of the pine beam of the sofa seat, which was heavily loaded with dynamic forces. The research aimed to compare the strength of an alternative furniture material with the material used so far. The test samples were made of an alternative material (LVL) and the currently used material (pine wood). The moisture content of both tested materials was in the range of 8.3-11.4%. The tests measured the bending strength of both construction materials and the withdrawal capacity of plastic spring holders fastened with staples. The three-point bending flexural test used two series of eight test samples (n = 8) with dimensions of 1970×65×36 mm. The test was carried out by simulating a furniture element's real dynamic bending load using a special testing machine. The spring holders' resistance to withdrawal strength was tested using a universal testing machine. In each tested material, the spring holders were fastened in two ways, and the tests were carried out in a series of 5 pieces (n = 5). The bending test results indicate that LVL was more resistant to bending than pine wood. The median of the forces in the series for LVL was 360 N, and in the case of pine wood - 315 N. An important parameter tested was the withdrawal test of spring holders in both tested materials. The results of this test point out that spring holders fastened in pine wood have a different load capacity (500-800 N). This load capacity was related to the direction of the wood fibers. The load capacity in the LVL changed to a smaller range (700-800 N). Analyzing the test results points out that the higher the moisture content of the tested samples, the lower the bending resistance. Based on the conclusions of the research, it was decided to change the rear seat rail from pine wood to LVL.