Density profile and morphology of viscoelastic thermal compressed wood A Kutnar, FA Kamke, M Sernek Wood Science and Technology 43 (1-2), 57, 2009 | 149 | 2009 |
The mechanical properties of densified VTC wood relevant for structural composites A Kutnar, FA Kamke, M Sernek Holz als Roh-und Werkstoff 66 (6), 439-446, 2008 | 88 | 2008 |
Sustainable development and green buildings A Sinha, R Gupta, A Kutnar Drvna Industrija 64 (1), 2013 | 86 | 2013 |
Densification of wood A Kutnar, M Šernek Zbornik gozdarstva in lesarstva, 53-62, 2007 | 81 | 2007 |
Wood modification technologies-a review D Sandberg, A Kutnar, G Mantanis iForest-Biogeosciences and Forestry 10 (6), 895, 2017 | 78 | 2017 |
Hardness and density profile of surface densified and thermally modified Scots pine in relation to degree of densification L Rautkari, K Laine, A Kutnar, S Medved, M Hughes Journal of Materials Science 48 (6), 2370-2375, 2013 | 71 | 2013 |
Soy-based adhesives for wood-bonding–a review D Vnučec, A Kutnar, A Goršek Journal of adhesion science and Technology 31 (8), 910-931, 2017 | 70 | 2017 |
Reducing the set-recovery of surface densified solid Scots pine wood by hydrothermal post-treatment K Laine, L Rautkari, M Hughes, A Kutnar European Journal of Wood and Wood Products 71 (1), 17-23, 2013 | 70 | 2013 |
Thermally modified timber: recent developments in Europe and North America D Sandberg, A Kutnar Wood and Fiber Science 48 (1), 28-39, 2016 | 60 | 2016 |
Influence of temperature and steam environment on set recovery of compressive deformation of wood A Kutnar, FA Kamke Wood science and technology 46 (5), 953-964, 2012 | 60 | 2012 |
Influence of temperature and steam environment on set recovery of compressive deformation of wood A Kutnar, FA Kamke Wood science and technology 46 (5), 953-964, 2012 | 60 | 2012 |
Wood and human stress in the built indoor environment: a review MD Burnard, A Kutnar Wood science and technology 49 (5), 969-986, 2015 | 57 | 2015 |
Compression of wood under saturated steam, superheated steam, and transient conditions at 150 C, 160 C, and 170 C A Kutnar, FA Kamke Wood science and technology 46 (1-3), 73-88, 2012 | 53 | 2012 |
Compression of wood under saturated steam, superheated steam, and transient conditions at 150 C, 160 C, and 170 C A Kutnar, FA Kamke Wood science and technology 46 (1-3), 73-88, 2012 | 53 | 2012 |
Production of biomaterials from cork: Liquefaction in polyhydric alcohols at moderate temperatures AMC Yona, F Budija, B Kričej, A Kutnar, M Pavlič, P Pori, Č Tavzes, ... Industrial Crops and Products 54, 296-301, 2014 | 44 | 2014 |
The influence of viscoelastic thermal compression on the chemistry and surface energetics of wood A Kutnar, FA Kamke, M Petrič, M Sernek Colloids and Surfaces A: Physicochemical and Engineering Aspects 329 (1-2 …, 2008 | 43 | 2008 |
Carbon footprint versus performance of aluminum, plastic, and wood window frames from cradle to gate A Sinha, A Kutnar Buildings 2 (4), 542-553, 2012 | 34 | 2012 |
Environmental impacts of traditional and innovative forest-based bioproducts A Kutnar, SS Muthu Springer, 2016 | 32 | 2016 |
Compressed and moulded wood from processing to products: COST action FP0904 2010–2014: Thermo-hydro-mechanical wood behaviour and processing A Kutnar, D Sandberg, P Haller Holzforschung 69 (7), 885-897, 2015 | 31 | 2015 |
Thermal modification of soy proteins in the vacuum chamber and wood adhesion D Vnučec, A Goršek, A Kutnar, M Mikuljan Wood science and technology 49 (2), 225-239, 2015 | 30 | 2015 |