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Wood Science and Technology

Erschienen in:

01.11.2013 | Original

Fracture energy approach for the identification of changes in the wood caused by the drying processes

verfasst von: Hermann Pleschberger, Christian Hansmann, Ulrich Müller, Alfred Teischinger

Erschienen in: Wood Science and Technology | Ausgabe 6/2013

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Abstract

Specific fracture energy measurements were applied to identify changes caused by wood-drying processes of solid wood. Specimen design and geometry as well as parameters and specifications for a fracture energy test were determined experimentally. The specific test set-up was applied on plantation teakwood sample sets of standard as well as alternating convection kiln dryings and one oven drying. The results show that alternating changes of the drying temperature along with the equilibrium moisture content (EMC) in a kiln schedule have a small but significant decreasing effect on the specific fracture energy in the radial/longitudinal as well as the tangential/longitudinal testing direction. Furthermore, oven drying at constant high drying temperature along with low EMC did not result in a significant change of specific fracture energy compared with standard drying, but caused greater scattering values in both transverse crack propagation systems.

Vorheriger Artikel Erratum to: A review of wood thermal pretreatments to improve wood composite properties

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ASTM D 3433-75 (1985) Standard practice for fracture strength in cleavage of adhesives in bonded joints. American Society for Testing and Materials, Philadelphia

Bhat MK, Priya BP, Rugmini P (2001) Characterisation of juvenile wood in teak. Wood Sci Technol 34:517–532CrossRef

Burmester A (1975) Zur Dimensionsstabilisierung von Holz. Holz Roh-Werkst 33:333–335CrossRef

Ehart AJR, Stanzl-Tschegg SE, Tschegg EK (1996) Characterization of crack propagation in particleboard. Wood Sci Technol 30:307–321CrossRef

EN 14298 (2004) Sawn timber—assessment of drying quality. European Standard, Brussels

Frühmann K, Tschegg EK, Dai C, Stanzl-Tschegg SE (2002) Fracture behaviour of laminated veneer lumber under mode I and III loading. Wood Sci Technol 36:319–334CrossRef

Gerhards CC (1986) High-temperature drying of southern pine 2 by 4's: effects on strength and load duration in bending. Wood Sci Technol 20:349–360CrossRef

Griffith AA (1921) The Phenomena of Rupture and Flow in Solids. Philos Trans R Soc Lond A 221:163–198CrossRef

Hillis WE (1984) High temperature and chemical effects on wood stability. Part 1: general considerations. Wood Sci Technol 18:281–293CrossRef

Hinterstoisser B, Weingärtner J, Praznik W (1992) Influence of wood drying processes on the carbohydrate matrix of wood of picea abies. In: Proceedings of 3rd IUFRO International Conference. Vienna, pp 217–221

Irwin RG (1958) Fracture. Encyclopedia of Physics, Berlin

Kifetew G, Thuvander F, Berglund L, Lindberg H (1998) The effect of drying on wood fracture surfaces form specimens loaded in wet condition. Wood Sci Technol 32:83–94

Logemann M, Schelling W (1992) Die Bruchzähigkeit von Fichte und ihre wesentlichen Einflußparameter—Untersuchung im mode-1. Holz Roh-Werkst 20:47–52CrossRef

Mai YW (1975) On the velocity-dependent fracture toughness of wood. Wood Sci 8(1):364–367

Majano–Majano A, Hughes M, Fernandez-Cabo JL (2012) The fracture toughness and properties of thermally modified beech and ash at different moisture contents. Wood Sci Technol 46:5–21CrossRef

Oltean L, Teischinger A, Hansmann C (2007) Influence of temperature on cracking and mechanical properties of wood during wood drying—a review. Bioresources 2(4):789–811

Oltean L, Teischinger A, Hansmann C (2011) Influence of low and moderate temperature kiln drying schedules on specific mechanical properties of Norway spruce wood. Eur J Wood Wood Prod 69(3):451–457CrossRef

Perré P (2007) Fundamentals of wood drying. COST, A.R.BO.LOR, European COST, France

Pleschberger H, Teischinger A, Müller U, Hansmann C (2013) Mechanical characterization of lumber of small-diameter hardwood species after different drying schedules. Dry Technol 31(9):1056–1062

Porter AW (1964) On the mechanics of fracture in wood. For Prod J 14(2):325–331

Posch B, Wegener G, Grosser D, Wagner L (2004) Physikalische und mechanische Untersuchungen an Teakholz (Tectona grandis L.f.) aus Plantagen in Panamá. Holz Roh-Werkst 62:31–35CrossRef

Reiterer A (2001) The influence of temperature on the mode I fracture behaviour of wood. J Mater Sci 20:1905–1907

Schniewind AP, Ohgama T, Aoki T, Yamada T (1982) Effect of specific gravity, moisture content, and temperature on fracture toughness of wood. Wood Sci 15(2):101–109

Smith I, Chui YH (1994) Factors affecting mode I fracture energy of plantation-grown red pine. Wood Sci Technol 28:147–157CrossRef

Smith I, Landis E, Gong M (2003) Fracture and fatigue in wood. Wiley, Chichester

Stanzl-Tschegg SE (2006) Microstructure and fracture mechanical response of wood. Int J Fracture 139:495–508CrossRef

Stanzl-Tschegg SE, Tschegg E, Teischinger A (1994) Fracture energy of spruce wood after different drying procedures. Wood Fiber Sci 24(4):467–478

Stanzl-Tschegg SE, Tan MD, Teschegg EK (1995) New splitting method for wood fracture characterization. Wood Sci Technol 29:31–55CrossRef

Teischinger A (1992) Effect of different drying temperatures on selected physical wood properties. In: Proceedings of 3rd IUFRO International Conference. Vienna, pp 211–216

Tschegg EK, Frühmann K, Stanzl-Tschegg ES (2001) Damage and fracture mechanisms during mode I and III loading of wood. Holzforschung 55:525–533CrossRef

Welling J (1996) Zur Ermittlung der Trocknungsqualität von Schnittholz. Holz Roh-Werkst 54:307–311CrossRef

Titel: Fracture energy approach for the identification of changes in the wood caused by the drying processes
verfasst von: Hermann Pleschberger
Christian Hansmann
Ulrich Müller
Alfred Teischinger
Publikationsdatum: 01.11.2013
Verlag: Springer Berlin Heidelberg
Erschienen in: Wood Science and Technology / Ausgabe 6/2013
Print ISSN: 0043-7719
Elektronische ISSN: 1432-5225
DOI: https://doi.org/10.1007/s00226-013-0578-z

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