References
- Armstrong L.D. 1972. Deformation of wood in compression during moisture movement. Wood Science, 5 (2), 81-86.
- Bach L. 1973. Reiner-Weisenberg’s theory applied to time-dependent fracture of wood subjected to various modes of mechanical loading. Wood Science, 5 (3), 161-171.
- Bodig J., Jayne B.A. 1982. Mechanics of wood and wood composites. Van Nostrand Reinhold Compony, New York.
- Bollmus S. 2011. Biologische und technologische Eigenschaften von Buchenholz nach einer modifizierung mit 1,3-dimethylol-4,5-dihydroxyethyleneurea (DMDHEU). Ph.D. Thesis, Georg-August-Universität, Göttingen, Gemany (in German).
- Boyd J.D. 1982. An anatomical explanation for visco- elastic and mechano sorptive creep in wood, and effects of loading rate on strength. In: New Perspectives in Wood Anatomy (ed.: P. Baas), Martinus Nijhoff, W. Junk Publishers, Hague, 171-222.
- Buffon G.L.L. 1740. Experiences sur la force du bois. Paris L›Academie Royale des Sciences. Histoire et Memoires, Vol. 292.
- Clouser W.S. 1959. Creep of small wood beams under constant bending load. Report 2150, USDA Forest Service, Forest Products Laboratory, Madison, WI.
- DIN 52 186. 1978. Testing of wood; bending test. Deutsches Institut Für Normung e.V. Normen über Holz, Biegeversuch, Beuth, Berlin, (in German).
- Dinwoodie J.M., Higgins J.-A., Paxton B.H., Robson D.J. 1990. Creep research on particleboard, 15 year’s work at the UK Building Research Establishment. Holz als Roh und Werkstoff, 48, 5-10.
- Dinwoodie J.M., Paxton B.H., Higgins J.-A., Robson D.J. 1991. Creep in chipboard, Part 10: The effect of variable climate on the creep behaviour of a range of chipboards and one wafer board. Wood Science Technology, 26 (1), 39-51.
- Donath S., Militz H., Mai C. 2004. Wood modification with alkoxys. Wood Science and Technology, 38, 555-566.
- ENV 1995-1. 2003. EC 5, Eurocode 5 - Design of timber structures - Part 1-1: General - Common rules and rules for buildings. CEN European Committee for Standardization, Bruxelles.
- Epmeier H., Westin M., Rapp A. 2004. Differently modified wood: Comparison of some selected properties. Scandinavian Journal of Forest Research, 19 (5), 31-37.
- Epmeier H., Kliger R. 2005. Experimental study of material properties of modified Scots pine. Holz als Roh- und Werkstoff, 63, 430-436.
- Epmeier H., Johansson M., Kliger R., Westin M. 2007a. Material properties and their interrelation in chemically modified clear wood of Scots pine. Holzforschung, 61, 34-42.
- Epmeier H., Johansson M., Kliger R., Westin M. 2007b. Bending creep performance of modified timber. Holz als Roh-und Werkstoff, 65, 343-351.
- Grossmann P.U.A. 1976. Requirements for a model that exhibits mechano-sorptive behaviour. Wood Science and Technology, 10, 163-168.
- Hearmon R.F.S. 1966. Vibration testing of wood. Forest Product Journal, 16, 29-39.
- Krause A. 2006. Holzmodifizierung mit N-Methylolvernetzern. Ph.D. Thesis, Georg-August-Universitat Goettingen (in German).
- Liu T. 1994. Creep of wood under a large span of loads in constant and varying environments. Part 2: Theoretical investigations. Holz als Roh und Werkstoff, 52 (1), 63-70.
- Lopes D.B., Mai C., Militz H. 2013a. Physical properties of chemical modified Portuguese pinewood.= Manuscript in print.
- Lopes D.B., Mai C., Militz H. 2013b. Mechanical properties of chemical modified Portuguese pinewood. Manuscript in print.
- Lopes D.B., Mai C., Militz H. 2013c. Mechano-sorptive creep of Portuguese modified wood. Manuscript in print.
- Lopes D.B., Mai C., Militz H. 2014. Resistance of Portuguese modified wood to marine borers. Ciencia y Tecnologia, 16 (1), in print.
- Machek L., Edlund M.L., Sierra-Alvarez R., Militz H. 2003. A non-destructive approach approach for assessing decay in preservative treated wood. Wood Science and Technology, 37, 411-417.
- Mai C., Xie Y., Xiao Z., Bollmus S., Vetter G., Krause A., Militz H. 2007. Influence of the modification with different aldehyde-based agents on the tensile strength. 3 European Conference on Wood Modification, Cardiff, UK, 49-56.
- Militz H. 1993. Treatment of timber with water soluble dimethylol resins to improve their dimensional stability and durability. Wood Science and Technology, 27, 347-355.
- Norimoto M., Gril J., Rowell R.M. 1992. Rheological properties of chemically modified wood: relationship between dimensional and creep stability. Wood and Fiber Science, 24 (1), 25-35.
- Pfeffer A.G. 2011. Effect of water glass, silane and DMDHEU treatment on the colonisation of wood by sap-staining fungi. PhD dissertation, Georg-August- Universität, Göttingen, Germany.
- Ranta-Maunus A., Kortesmaa M. 2000. Creep of timber during eight years in natural environments. World Conference on Timber Engineering Whistler, CA, 31 July-3 August. http://www.vtt.fi/inf/pdf/jurelinkit/RTE_Ranta-Maunus3.pdf
- Rowell R.M. 1996. Physical and mechanical properties of chemically modified wood. In: Chemical modification of lingo-cellulosic materials (ed.: R.M. Rowell). Marcel Dekker, New York, 295-310.
- Schniewind A.P. 1968. Recent progress in the study of the theology of wood. Wood Science and Technology, 2, 188-206.
- Scholz G., Krause A., Militz H. 2009. Capillary water uptake and mechanical properties of wax soaked Scots pine. 4 European Conference on Wood Modification, 27-29 April Stockholm, Sweden, 209-212.
- Xie Y., Krause A., Militz H., Turkulin H., Richter K., Mai C. 2007. Effect of treatments with 1,3-dimethylol-4,5-dihydroxyethyleneurea (DMDHEU). on the tensile properties of wood. Holzforschung, 61, 43-50.