The Effect of Milling Parameters and Thermal Modification on Power Input During the Milling of Thermally Modified Spruce and Oak Wood

Effects of material, tool, and technological parameters were assessed during planar milling of thermally modified spruce (Picea abies L.) and oak (Quercus cerris L.) wood relative to the energy intensity of machining. The milling took place under the following conditions: cutting speeds of 20 m/s, 30 m/s, and 40 m/s; feed rates of 4 m/min, 8 m/min, and 11 m/min; and rake angles of 15 degrees, 20 degrees, and 25 degrees. Another change factor was the temperature of the thermal modification (20 degrees C - reference; 160 degrees C; 180 degrees C, and 210 degrees C). Each factor (cutting speed, rake angle, temperature, and feed rate) was found to have a statistically significant effect. The change in cutting speed had the greatest effect. The lowest power consumption was achieved with a cutting speed of 20 m/s, feed rate of 4 m/min, and rake angle of 25 degrees. In terms of thermal modification, thermally modified wood was machined with a lower power input. This result can be explained by the chemical processes in the wood and the reduced density in comparison with untreated wood. In comparison with density, the influence of changes in wood chemical composition did not have as great an impact on power input.