In the study, the density values of wood-based composite panels with a geometric corrugated core and screw retention resistance from the plate surface were determined. For this purpose, three different geometric grooves (circular, rectangular and trapezoidal) shapes were processed into the core geometries of the panels, and the lower and upper surfaces of the core layers were adhered with urea formaldehyde glue, using 4 mm plywood and fiberboard. In order to determine the density values and screw holding resistance of the panels produced, experiments were carried out in accordance with the principles specified in the relevant standards and data were obtained. The Duncan test was used to determine the differences between the groups of the factors that were found to be significant by performing multiple variance analyzes of the obtained data. According to the results of the tests, different geometric corrugated shapes processed into the core layer of wood-based composite panels; it was observed that the panels caused a decrease in screw holding resistance and density values. According to the test results, the highest screw holding resistance; the lowest screw holding resistance was found to be 8.92 N/mm² in the panel with a circular corrugated core with a plywood surface, while the panel with a rectangular corrugated core with a plywood surface was 15.36 N/mm².