Wood Science and Technology

, Volume 30, Issue 5, pp 339–345 | Cite as

Stability problems in optimised chairs?

  • S. -I. Gustafsson


Chairs and other furniture are seldom designed by help of structural mechanics and modern computers. Even if the designer uses a sophisticated CAD program, he, or she, will not use for example, finite element programs, FEM, in order to optimise the construction. Most furniture is made of wood or wood composites. Usually, structural mechanics is used for designing wood members in roof constructions and so forth. Because of the consequences of a breakdown, the allowable design stresses must be very low, about one third of the measured breaking strength. Smaller wood details could be chosen with more care and for chairs the result of a break would not necessarily lead to a disaster. However, a lot of the knowledge about how to design small wood structures emanates from the pre-war aeroplane industry. The difference between tensile and compression strength properties in wood also makes ordinary FEM programs hazardous to use because the background theory assumes that these properties are equal in magnitude. In this paper we show how to calculate the internal stresses of an undetermined chair frame and also show some material test results for Swedish alder, Alnus glutinosa.


Breaking Strength Compression Strength Finite Element Program Alnus Glutinosa Wood Composite 
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  1. Asplund S. O. (1966): Structural mechanics: classical and matrix methods. Prentice-Hall/Englewood Cliffs, N.J.Google Scholar
  2. Cai, L.; Wang, F. (1993): Influence of the stiffness of corner joint on case furniture deflection, Holz Roh-Werkstoff 51: 406–408Google Scholar
  3. Eckelman, C. A. (1966): A look at the strength design of furniture. Forest Prod. J. 16(3): 21–24Google Scholar
  4. Gustafsson, S. I. (1995): Furniture design by use of the finite element method. Holz Roh-Werkstoff 53: 257–260Google Scholar
  5. Gustafsson, S. I. (1996): Finite element modelling versus reality for birch chairs. Holz Roh-Werkstoff 53(5) in pressGoogle Scholar
  6. Smardzewski, J.; Dziegielewski, S. (1993): Stability of cabinet furniture backing boards. Wood Sci. Technol. 28: 35–44Google Scholar
  7. Tsoumis, G. (1991): Science and technology of wood. Van Nostrad Reinhold, New YorkGoogle Scholar
  8. Wang, S. Y.; Juang, H. B. (1994): Structural behaviour of various joints in furniture components made of softwood laminated veneer lumber. Mokuzai Gakkaishi 40(9): 911–921Google Scholar

Copyright information

© Springer-Verlag 1996

Authors and Affiliations

  • S. -I. Gustafsson
    • 1
  1. 1.IKP, Wood Science and Technology Institute of TechnologyLinköpingSweden

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