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A description of failure stress for tension and compression of pinewood in the LR orthotropy plane, in accordance with the Mises, Ashkenazi-Ganov and Tsai-Wu criteria, is presented in the work. The tests for pinewood has shown that strength depends on density along the L-direction. This dependence was used for the description of the pinewood failure stress. The choice of the criterion was determined by the possibility to describe correctly the failure stress, assuming that the failure stress function goes through the values of strength obtained from the tests in the L and R directions. An analysis of the above criteria leads to the choice of the Ashkenazi-Ganov criterion as the most precise criterion describing the experimental data.
Czasopismo
Rocznik
Tom
Strony
21--33
Opis fizyczny
Bibliogr. 14 poz., rys., wykr.
Twórcy
autor
- Department of Mechanics, Technical University of Białystok Białystok, Poland
Bibliografia
- 1. A. REITERER, S.E. STANZL-TSCHEGG, Compressive behaviour of softwood under uniaxial loading at different orientations to the grain, Mech. Mater., 33, 12, 705-715, 2001.
- 2. J.Y. Liu, Analysis of off-axial tension test of wood specimens. Wood and Fiber Sci., 34, 2, 205-211, 2002.
- 3. T. TABARSA, Y.H. CHUI, Stress-strain response of wood under radial compression. Part I. Test method and influences of cellular properties, Wood and Fiber Sci., 33, 2, 144-152, 2000.
- 4. J.S. POULSEN, P.M. MORAN, C.F. SHIH, E. BYSKOV, Kink band initiation and band broadening in clear wood under compressive loading, Mech. Mater., 25, 2, 67-77, 1997.
- 5. M. VULAR, G. RAVICHANDRAN, Microstructural aspects and modeling of failure in naturally occurring porous composites, Mech. Mater., 35, 3-6, 523-536, 2003.
- 6. E. BYSKOV, J. CHRISTOFFERSEN, C.D. CHRINSTENSEN, J.S. POULSEN, Kinkband formation in wood and fiber composites - morphology and analysis, Int. J. Solids Struct., 39, 3-6, 3649-3673, 2002.
- 7. J. GALICKI, M. CZECH, Tensile strength of softwood in LR orthotropy plane, Mech. Mater., 37, 6, 677-686, 2005.
- 8. B. THIBAUT, J. GRIL, M. FOURNIER, Mechanics of wood and trees: some new highlights for an old story, C. R. Acad. Sci. Paris 329, lib, 701-716, 2001.
- 9. W. GINDL, A. TEISCHINGER, Axial compression strength of Norway spruce related to structural variability and lignin content, Composites Part A, 33, 12, 1623-1628, 2002.
- 10. R. MISES, Mechanik der plastischen Formdnderungen von Kristallen, Zeitschrift fur angew. Math, und Mech., 8, 161-185, 1928.
- 11. E.K. ASHKENAZI, Z.V. GANOV, Anisotropy of structural materials, Mechanical Engineering, Leningrad 1972.
- 12. S.W. TSAI, E.M. Wu, A general failure criterion for anisotropic materials, J. Compos. Mater., 5, 1, 58-80, 1971.
- 13. J. GALICKI, M. CZECH, Compression strength of pine wood in the main orthotropy plane, Int. J. Appl. Eng., 6, 4, 899-912, 2001.
- 14. J. EBERHARDSTEINER, Mechanisches Verhalten von Fichtenholz, Experimentelle Bestimmung der biaxialen Festigkeitseigenschaften, Springer-Verlag, Wien, New York 2002.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT7-0004-0016