Open Access
Mechanics & Industry
Volume 19, Number 3, 2018
Article Number 301
Number of page(s) 12
Published online 03 September 2018
  1. A. Kasal, Determination of the strength of various sofa frames with finite element analysis, G.U.J. Sci. 19 (2006) 191–203 [Google Scholar]
  2. H.I. Demirci, The experimental and finite element analysis of diagonal tensile tests conducted on frame-type constructed corner joints, Technol 14 (2011) 11–21 [Google Scholar]
  3. EN 747, Furniture − Bunk beds and high beds for domestic use − Part 2: test methods, 2012 [Google Scholar]
  4. T. Nicholls, R. Crisan, Study of the stress strain state in corner joints and box-type furniture using Finite Element Analysis (FEA), Holz als Roh- und Werkstoff. 60 (2002) 66–71 [Google Scholar]
  5. H. Makhlouf, L. Chevalier, E. Launay, E. Favier, A stochastic approach for the evaluation of the reliability of wood furniture in an industrial context: managing virtual standardisation tests, Mech. Ind. 2015a [Google Scholar]
  6. Y.Z. Erdil, J. Zhang, C.A. Eckelman, Withdrawal and bending strength of dowel-nuts in plywood and oriented strandboard, FPJ 53 (2003) 54–57 [Google Scholar]
  7. C.A. Eckelman, Holding strength of through bolt with dowel nut connections, FPJ 39 (1989) 41–48 [Google Scholar]
  8. H. Carrington, The elastic constants of spruce, Philos. Mag. Lond. 45 (1923) 1055–1057 [CrossRef] [Google Scholar]
  9. J. Campredon, Contribution à l'étude des propriétés élastiques des bois, Ann. Éc. Natl. Eaux For. Stn. Rech. Exp. 3 (1935) 251–288 [Google Scholar]
  10. F.H. Neuhaus, Elastizitatszahlen von Fichtenholz, Diss. Ruhruniversitat, Bochum, 1981 [Google Scholar]
  11. D. Guitard, Mécanique du matériau bois et composites, Cepadues, Toulouse, France, 1987 [Google Scholar]
  12. J. Bodig, B. Jayne, Mechanics of wood and wood composites, Krieger, Malabar, Florida, USA, 1993 [Google Scholar]
  13. J. Charles, Wood properties, Encycl. Agric. Sci. 4 (1994) 549–561 [Google Scholar]
  14. E. Kahle, J. Woodhouse, The influence of cell geometry on elasticity of softwood, J. Mater. Sci. 29 (1994) 1250–1259 [Google Scholar]
  15. J.E. Winandy, Wood properties, USDA-Forest Service, Forest Products Laboratory, 1994, pp. 549–561 [Google Scholar]
  16. USDA, Wood handbook d wood as an engineering material, Forest Products Society, 1999 [Google Scholar]
  17. D. Keunecke et al., Determination of Young's and shear moduli of common yew and Norway spruce by means of ultrasonic waves, Wood Sci. Technol. 41 (2007) 309–327 [Google Scholar]
  18. P. Niemz, D. Caduff, Research into determination of the Poisson ratio of spruce wood, Holz. Roh. Werkst. 66 (2008) 1–4 [CrossRef] [Google Scholar]
  19. S.L. Chan, P.P.T. Chui, Non linear static and cyclic analysis of steel frames with semi-rigid connections, Elsevier, UK, 2000 [Google Scholar]
  20. L.M.C. Simões, Optimization of frames with semi rigid connections, Comput. Struct. 60 (1996) 531–539 [Google Scholar]
  21. L. Chevalier, S. Calloch, F. Hild, Y. Marco, Digital correlation used to analyse the multiaxial behavior of rubber-like materials, Eur. J. Mech. A/Solids 20 (2001) 169–187 [CrossRef] [Google Scholar]
  22. H. Makhlouf, L. Chevalier, T.T. Nguyen, E. Launay, Identification du comportement anisotrope du bois par comparaison calcul éléments finis et analyse d'images, journées scientifiques du GDR Bois, 4-6 novembre2015, Clermont Ferrand, 2015b [Google Scholar]

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