Interaction between Thermal Modification Temperature of Spruce Wood and the Cutting and Fracture Parameters

This work examines the effect of thermal modification temperatures in the production of thermally modified wood on the cutting and fracture parameters when cutting heat-treated spruce wood by a circular sawblade machine. The samples were thermally modified at 160, 180, 200, and 220 & DEG;C. One sample was unmodified and was used as a reference sample. On the basis of the performed experiments, the fracture parameters (fracture toughness and shear yield strength) were calculated for the axial-perpendicular direction of cutting. In comparison with the theoretical assumptions, the influence of temperature on the cutting and fracture parameters was confirmed. Thermally treated wood is characterized by increased fragility and susceptibility to crack formation, as well as reduced density, bending strength, and shear strength. These properties significantly affect the size of the cutting force and feed force, as well as the fracture parameters. As the temperature increases, the values of these parameters decrease. The mentioned material characteristics could be useful for the optimization of the cutting process, as well as for the issue of energy consumption during the machining of heat-treated wood.

Automated summary

This study investigates the impact of various thermal modification temperatures on the cutting and fracture parameters of thermally modified wood when cut by a circular sawblade machine. It was found that thermally treated wood exhibits increased fragility, susceptibility to crack formation, as well as reduced density, bending strength, and shear strength. These material characteristics have a significant effect on cutting force, feed force, and fracture parameters, with values decreasing as temperature increases.