Determining strength of the modified wood

Kyzioł, L.

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Tytuł artykułu

Determining strength of the modified wood

Autorzy

Kyzioł L.

Treść / Zawartość

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Abstrakty

The article presents results of investigations of the effect of pinewood modification with methyl polymethacrylate on the anisotropy of its strength in complex stress conditions. The investigations aimed at determining the resistance of the examined wood to stretching, compression, stretching with shear, and compression with shear. For the investigations oriented on shear, shear with stretching, and shear with compression, a special specimen was prepared which differs by notch geometry from a typical Iosipescu specimen. A new test machine is described in the article, which is equipped with special specimen holders to perform investigations in complex stress conditions. Crack patterns recorded for the natural and modified wood are presented. For all tests, numerical FEM simulations were performed to obtain stress distributions inside the specimens. The calculated stress distributions were visualised as contour line projections for the natural and modified wood.

Słowa kluczowe

wood modification wood-polymer composite Iosipescu specimen stress distribution in the specimen under load

Wydawca

Gdańsk University of Technology, Faculty of Ocean Engineering & Ship Technology

Czasopismo

Polish Maritime Research

Rocznik

2008

Tom

nr 2

Strony

40--25

Opis fizyczny

Bibliogr. 25 poz., rys., tab.

Twórcy

autor

Kyzioł L.

Faculty of Mechanical and Electrical Engineering Institute of Basic Engineering Polish Naval Academy in Gdynia Śmidowicza 69 81-103 Gdynia, POLAND, L.Kyziol@amw.gdynia.pl

Bibliografia

1. Adams D.F., Lewis E.Q.: Experimental strain analysis of the Iosipescu shear test specimen. Exp. Mech., Vol. 35, No. 2, pp. 352-360, 1997
2. Adams D.F., Lewis E.Q.: Experimental assessment of four composite material shear test methods. J. Test. Evaluat. Vol. 25, No. 2, pp. 242-254, 1995
3. Adams D.F., Walrath D.F.: Current status of the Iosipescu shear test, J. Comp. Mat., Vol. 25,No. 1, pp. 494-506, 1987
4. Arcan M., Hashin Z., Voloshin A.: A method to produce uniform plane-stress states with applications fiber-reinforced materials. Exp. Mech., Vol. 18, pp. 141-145, 1984
5. Boding J., Goodman I.R.: Prediction of elastic parameters for wood, Wood Sci., Vol.5, No. 4, pp. 378-385, 1973
6. Boding J., Jayne B., A.: Mechanics of wood and wood composites, Van Nostrand Reinhold, New York, 1982
7. Broughton W.R., Kumosa M., Hill D.: Analysis of the Iosipescu shear test applied to unidirectional carbon-fiber reinforced composites, Comp. Science Tech., Vol. 38, pp. 299-325, 1990
8. Iosipescu N.: New accurate procedure for single shear testing of metals. J. Mater., Vol. 2, No. 3, pp. 537-566, 1967
9. Kumosa M., Hull D.: Mixed – mode fracture of composites using Iosipescu shear test. Int. J. Fracture, Vol. 35, pp. 83-102, 1987
10. Kyzioł L.: Modified wood – a promising material for shipbuilding. Polish Maritime Research, pp. 6-10, 1999
11. Kyziol L, Kowalski S. J.: Mechanical Properties of Modified Wood-IUTAM Symposium on Theoretical and Numerical Methods in Continuum Mechanics of Porous Materials. University of Stuttgart, Germany, September 5-10, pp.221-229, 1999
12. Morton J., Ho H., Tsai M. Y., Farley G.: An evaluation of the Iosipescu specimen for composite materials shear property measurement. J. Compos. Mater., Vol. 26, pp. 708-750, 1992
13. Ochelski S.: Critical evaluation of selected methods of composite investigations (in Polish). WAT Bulletin, Year XLIX, No. 7, pp. 23-33, 2000
14. Pierron F., Vautrin A.: Analyse de la rupture d`éprouvettes Iosipescu: application à la mesure de la résistance au cisaillement. Ninth French Conference on Composite Materials, Vol.2, Saint-Etienne, 22-24 November, pp. 709-718, 1994
15. Pierron F., Vautrin A.: Measurement of the in-plane shear strengths of unidirectional composites with the Iosipescu test. Composites Science and Technology, Vol. 57, pp. 1653-1660, 1997
16. Pindera M.J. et all.: A methodology for accurate shear characterization of unidirectional composites. J. Compos. Mater., Vol. 21, pp. 1164-1185, 1987
17. Swanson S.R., Messick M., Tombes G.R.: Comparison of torsion tube and Iosipescu in-plane shear test results for a carbon fibre reinforced epoxy composite. Composites, Vol. 16, No. 3, pp. 178-183, 1985
18. Tarnopolskij Yu. M., Arnautov A.K., Kulkov V.L.: Methods of determination of shear properties of textile composites. Composites Part A, Vol. 30, pp. 879-885, 1999
19. Walrath D.E., Adams D.F.: The Iosipescu shear test as applied to composite materials. Ex. Mech. Vol.3, pp. 105-110, 1983
20. Wang Ch.H., Chalkley P.: Plastic yielding of film adhesive under multiaxial stresses. Inter. J. Adhesion Adhesives, Vol 20, pp. 155-164, 2000
21. Kyzioł L.: Analysing properties of the constructional wood superficially saturated with the MM polymer (in Polish), Polish Naval Academy in Gdynia, No. 156 A, 2004
22. PN-79/D-04229. Wood. Determining resistance to compression across fibres (in Polish)
23. PN-81/D-04108. Wood. Determining resistance to stretching across fibres (in Polish)
24. PN-81/D-04107. Wood. Determining resistance to stretching along fibres (in Polish)
25. PN-79/D-04102. Wood. Determining resistance to compression along fibres (in Polish).

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Bibliografia

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