Effect of conditioning history on the characterization of hardness of thermo-mechanical densified and heat treated poplar wood

Poplar wood was modified by a combination of thermo-mechanical densification (TMD) and heat treatment (HT) process at five temperatures ranging from 170 to 210 degrees C. A new two-step conditioning method (CM) is suggested, in the course of which the modified wood is submitted to 50 degrees C/99% RH -> 25 degrees C/65% RH, where RH means relative humidity in the climate chamber. The traditional one-step CM (25 degrees C/65% RH) served as reference. The effects of conditioning history on hardness were observed and analyzed along with the change of dimensional stability. The hardness of the modified wood was lower in the case of the proposed CM due to more set-recovery release, but the extent of that decreased with the HT temperature. For a good hardness, HT200 degrees C should be selected with the proposed CM, which is different from the optimization output of 180 degrees C obtained from the traditional CM. In conclusion, a specific assessment method for the performance characterization of this type of modified wood would be beneficial for the combined TMD and HT processes.