Author:
Gao Jie,Kim Jong Sik,Terziev Nasko,Daniel Geoffrey
Abstract
Abstract
Softwoods (SW, spruce and fir) and hardwoods (HW, ash and beech) were thermally modified by the thermo-vacuum (Termovuoto) process for 3–4 h in the temperature range 160–220°C (TMW160–220°C) and their fungal durability were examined in soil-block tests with two brown rot (BR, Postia placenta, Gloeophyllum trabeum) and two white rot (WR, Pycnoporus sanguineus, Phlebia radiata) fungi. SW-TMW160–220°C were exposed to P. placenta and P. sanguineus and HW-TMW190–220°C to all fungal species. Considerable improvement (durability class 1–3) in decay resistance was only achieved for SW- and HW-TMW220°C. Thermal modification (TM) below 200°C influenced decay resistance negatively in case of some fungal species applied for both SW and HW. Judged by the durability class, decay resistance was higher in HW- than in SW-TMW at high TM temperature. Behavior of TM differed significantly between ash (ring-porous HW) and beech (diffuse-porous HW). A comparison between results of soil- and agar-block tests on Termovouoto wood demonstrated that the influence of testing method in terms of assignment to durability classes is not significant.
Reference62 articles.
1. Changes in chemistry, color, dimensional stability and fungal resistace of Pinus radiata D;Don wood with oil heat-treatment. Holzforschung,2012
2. Chemical changes during the production of thermo-treated beech wood;Wood Sci. Technol.,2007
3. Screening of wood preservatives: comparison of the soil-block, agar-block, and agar-plate tests;Forest Prod. J.,1995
4. Chemical and ultrastructural changes of ash wood thermally modified using the thermo-vacuum process: I. Histo/cytochemical studies on changes in the structure and lignin chemistry;Holzforschung,2015a
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