Turkey oak is a wood species widely distributed in south-eastern Europe and in Italy, where it is mainly present in the Apenni - ne Mountains. Compared to other oaks, Turkey oak is less valued because of its easy tendency to crack, its lower technological quality, and its lower durability. The aim of the present work was to improve wood quality by treating Turkey oak through combined steaming and thermal treatment in vacuum conditions. Wood was steamed at a temperature between 100 to 110 °C and thermally treated in vacuum conditions at 160 °C using two different technologies, i.e., the press vacuum plant and the Termovuoto ® plant. The treated material was characterized in terms of mass loss, color change, hygroscopicity and compression strength for both heartwood and sapwood. Results slightly differed according to the treatment or combination of treatments adopted. In general, a significant increase in dimensional stability and an improved color homogenization were obtained together with the maintenance of a good wood quality. Concerning mechanical properties, thermo-vacuum treatment increased the compression strength, while steaming had the opposite effect.
PRELIMINARY STUDIES ON THE EFFECTS OF COMBINED STEAMING AND VACUUMTHERMAL TREATMENTS ON TURKEY OAK (QUERCUS CERRIS L.)
TODARO, Luigi;CETERA, PAOLA;MORETTI, Nicola
2013-01-01
Abstract
Turkey oak is a wood species widely distributed in south-eastern Europe and in Italy, where it is mainly present in the Apenni - ne Mountains. Compared to other oaks, Turkey oak is less valued because of its easy tendency to crack, its lower technological quality, and its lower durability. The aim of the present work was to improve wood quality by treating Turkey oak through combined steaming and thermal treatment in vacuum conditions. Wood was steamed at a temperature between 100 to 110 °C and thermally treated in vacuum conditions at 160 °C using two different technologies, i.e., the press vacuum plant and the Termovuoto ® plant. The treated material was characterized in terms of mass loss, color change, hygroscopicity and compression strength for both heartwood and sapwood. Results slightly differed according to the treatment or combination of treatments adopted. In general, a significant increase in dimensional stability and an improved color homogenization were obtained together with the maintenance of a good wood quality. Concerning mechanical properties, thermo-vacuum treatment increased the compression strength, while steaming had the opposite effect.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.