Assessment of timber element mechanical properties using experimental modal analysis

Kouroussis, Georges; Ben Fekih, Lassaad; Descamps, Thierry

doi:10.1016/j.conbuildmat.2016.12.081

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Article (Scientific journals)

Assessment of timber element mechanical properties using experimental modal analysis

Kouroussis, Georges; Ben Fekih, Lassaad; Descamps, Thierry

2017 • In Construction and Building Materials, 134, p. 254-261

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https://hdl.handle.net/20.500.12907/28022

DOI
10.1016/j.conbuildmat.2016.12.081

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Research center :

URBAINE - Urbanisation Revitalisation Bâtiment Architecture Innovations Espaces

Disciplines :

Mechanical engineering

Author, co-author :

Kouroussis, Georges ; Université de Mons > Faculté Polytechnique > Mécanique rationnelle, Dynamique et Vibrations

Ben Fekih, Lassaad ; Université de Mons > Faculté Polytechnique > Mécanique rationnelle, Dynamique et Vibrations

Descamps, Thierry ; Université de Mons > Faculté Polytechnique > Service de Génie civil et Mécanique des Structures

Language :

English

Title :

Assessment of timber element mechanical properties using experimental modal analysis

Publication date :

01 March 2017

Journal title :

Construction and Building Materials

ISSN :

0950-0618

Publisher :

Elsevier, Amsterdam, Netherlands

Volume :

134

Pages :

254-261

Peer reviewed :

Peer Reviewed verified by ORBi

Research unit :

F703 - Mécanique rationnelle, Dynamique et Vibrations
F801 - Génie civil et Mécanique des Structures

Research institute :

R400 - Institut de Recherche en Science et Ingénierie des Matériaux

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since 20 December 2016

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Bibliography

[1] Kasal, B., Tannert, T., (eds.) In situ assessment of structural timber RILEM State of the Art Reports, vol. 7, 2011, Springer, Netherlands.
[2] Forest Products Laboratory, Wood Handbook – Wood as an Engineering Material, General Technical Report FPL-GTR-190. US Department of Agriculture, Department of Agriculture, Forest Service, Madison, WI, USA, 2010.
[3] Bodig, J., Jayne, B.A., Mechanics of Wood and Wood Composites. 1993, Krieger Publishing Company, Malabar, FL (USA).
[4] Cruz, H., Yeomans, D., Tsakanika, E., Macchioni, N., Jorissen, A., Touza, M., Mannucci, M., Lourenço, P.B., Guidelines for the on-site assessment of historic timber structures. Int. J. Architect. Heritage Conserv. Anal. Restor. 9:3 (2015), 277–289, 10.1080/15583058.2013.774070.
[5] Côté, W.A. Jr., Kollmann, F.F.P., Principles of Wood Science and Technology: I Solid Wood. 1968, Springer-Veriag, Berlin (Germany).
[6] Aras, F., Krstevska, L., Altay, G., Tashkov, L., Experimental and numerical modal analyses of a historical masonry palace. Constr. Build. Mater. 25:1 (2011), 81–91, 10.1016/j.conbuildmat.2010.06.054.
[7] Sánchez-Aparicio, L.J., Riveiro, B., González-Aguilera, D., Ramos, L.F., The combination of geomatic approaches and operational modal analysis to improve calibration of finite element models: a case of study in Saint Torcato Church (Guimarães, Portugal). Constr. Build. Mater. 70 (2014), 118–129, 10.1016/j.conbuildmat.2014.07.106.
[8] Wang, Z., Li, L., Gong, M., Measurement of dynamic modulus of elasticity and damping ratio of wood-based composites using the cantilever beam vibration technique. Constr. Build. Mater. 28:1 (2012), 831–834, 10.1016/j.conbuildmat.2011.09.001.
[9] Yang, X., Amano, T., Ishimaru, Y., Iida, I., Application of modal analysis by transfer function to nondestructive testing of wood II: modulus of elasticity evaluation of sections of differing quality in a wooden beam by the curvature of the flexural vibration wave. J. Wood Sci. 49:2 (2003), 140–144, 10.1007/s100860300022.
[10] Alves, R.J., Magalhaes, M.D.C., Carrasco, E.V.M., Determination of the transverse Young's modulus (TYM) of wood by means of an input power technique. Constr. Build. Mater. 42 (2013), 11–21, 10.1016/j.conbuildmat.2012.12.061.
[11] Olsson, A., Källsner, B., Shear modulus of structural timber evaluated by means of dynamic excitation and fe analysis. Mater. Struct. 48:4 (2015), 977–985, 10.1617/s11527-013-0208-0.
[12] Descamps, T., Noël, J., Semi-rigid analysis of old timber frames: definition of equivalent springs for joints modeling. enhancement of the method, numerical and experimental validation. International Review of. Mech. Eng. 3:2 (2009), 230–238.
[13] Descamps, T., Van Parys, L., Datoussaïd, S., Development of a specific finite element for timber joint modeling. Int. J. Comput. Methods Eng. Sci. Mech. 12:1 (2011), 1–13, 10.1080/15502287.2010.540299.
[14] G. Kouroussis, T. Descamps, L. Ben Fekih, O. Verlinden, Application of modal analysis to improve calibration of finite element models of timber structures. In: Proceedings of the 22nd International Congress on Sound and Vibration (ICSV22), Florence (Italy), 2015.
[15] Lin, R.M., Zhu, J., On the relationship between viscous and hysteretic damping models and the importance of correct interpretation for system identification. J. Sound Vib. 325:1–2 (2009), 14–33, 10.1016/j.jsv.2009.02.051.
[16] Ewins, D.J., Modal Testing: Theory and Practice. 1991, John Wiley & Sons, Great Yarmouth (UK).
[17] Service Public fédéral Economie, STS 04: Bois et panneaux Ã base de bois, Brussels (Belgium), 2008.
[18] Deutsches Institut für Normung. DIN EN408: Timber structures – Structural timber and glued laminated timber – Determination of some physical and mechanical properties, 2004.
[19] Piersol, A.G., Paez, T.L., Harris’ Shock and Vibration Handbook. sixth ed., 2009, McGraw-Hill, New-York (USA).
[20] Cugnoni, J., Gmür, T., Schorderet, A., Inverse method based on modal analysis for characterizing the constitutive properties of thick composite plates. Comput. Struct. 85:17–18 (2007), 1310–1320, 10.1016/j.compstruc.2006.08.090.
[21] G. Kouroussis, L. Ben Fekih, C. Conti, O. Verlinden, EasyMod: A MatLab/SciLab toolbox for teaching modal analysis. In: 19th International Congress on Sound and Vibration (ICSV19), Vilnius (Lithuania), 2012.