| 1 |
Weathering performance of surface of thermally modified wood finished with nanoparticles-modified waterborne polyacrylate coatings
Miklecic J, Turkulin H, Jirous-Rajkovic V
Applied Surface Science, 408, 103, 2017 |
| 2 |
Correlation between dynamic wetting behavior and chemical components of thermally modified wood
Wang W, Zhu Y, Cao JZ, Sun WJ
Applied Surface Science, 324, 332, 2015 |
| 3 |
Comparative evaluation of different thermally modified wood samples finishing with UV-curable and waterborne coatings
Herrera R, Muszynska M, Krystofiak T, Labidi J
Applied Surface Science, 357, 1444, 2015 |
| 4 |
Characterisation of the torrefaction of beech wood using NIRS: Combined effects of temperature and duration
Rousset P, Davrieux F, Macedo L, Perre P
Biomass & Bioenergy, 35(3), 1219, 2011 |
| 5 |
Decay resistance of thermally-modified Eucalyptus grandis wood at 140 degrees C, 160 degrees C, 180 degrees C, 200 degrees C and 220 degrees C
Calonego FW, Severo ETD, Furtado EL
Bioresource Technology, 101(23), 9391, 2010 |
| 6 |
Removal of Zn2+ from aqueous single metal solutions and electroplating wastewater with wood sawdust and sugarcane bagasse modified with EDTA dianhydride (EDTAD)
Pereira FV, Gurgel LVA, Gil LF
Journal of Hazardous Materials, 176(1-3), 856, 2010 |
| 7 |
Chemical composition changes in eucalyptus and pinus woods submitted to heat treatment
Brito JO, Silva FG, Leao MM, Almeida G
Bioresource Technology, 99(18), 8545, 2008 |
| 8 |
Weathering, water absorption, and durability of silicon, acetylated, and heat-treated wood
Temiz A, Terziev N, Jacobsen B, Eikenes M
Journal of Applied Polymer Science, 102(5), 4506, 2006 |
