论文信息 - Fracture mechanics in timber engineering – Strength analyses of components and joints

Fracture mechanics in timber engineering – Strength analyses of components and joints

Traditional timber engineering design approaches use for simple geometries stress- or strain-based criteria for strength analyses. For more complex cases purely empirical methods are also used. Although practical, purely empirical methods are not general, and could lead to estimations on the unsafe side, if extrapolated outside their original scope. It is furthermore known that stress- or strain-based methods are not useful in situations where large stress or strain concentrations arise, such as close to holes or notches, in dowel joints or in glued joints. Furthermore, such phenomena like size effects cannot be predicted, unless stochastic methods are introduced.The paper discusses some fracture mechanics strength analysis methods that in recent years have been proposed in relation to timber engineering strength design. The methods discussed range from simple hand calculations based on linear elastic fracture mechanics and useful for simple geometries to finite element analyses for general cases taking into account non-linear performance of the material during fracture. Fracture mechanics results in rational strength design, which is based on mechanics, as opposed to purely empirical methods, and with parameters with a clear physical meaning. In order to obtain material characteristics needed for this approach examples of test methods are discussed.Application examples include structural components, dowel joints and adhesive joints. Design formulae for beams with notches at the support and for the pull out strength of glued-in rods are presented.

Erik Serrano | Per Johan Gustafsson | P. Gustafsson | E. Serrano

[1] Carl-Johan Johansson,et al. GIROD - Glued in rods for timber structures. SMT4-CT97-2199 , 2002 .

[2] Lars Boström,et al. Method for determination of the softening behaviour of wood and the applicability of a nonlinear fracture mechanics model , 1992 .

[3] Erik Serrano,et al. Influence of bondline brittleness and defects on the strength of timber finger-joints , 1999 .

[4] Per-Johan Gustafsson,et al. Shear strength of beam splice joints with glued-in rods , 2003, Journal of Wood Science.

[5] Per Johan Gustafsson,et al. Fracture Mechanics Models for Strength Analysis of Timber Beams with a Hole or a Notch - A Report of RILEM TC-133 , 2002 .

[6] A. Hillerborg,et al. Analysis of crack formation and crack growth in concrete by means of fracture mechanics and finite elements , 1976 .

[7] H. Saunders,et al. Introduction to fracture mechanics , 1984 .

[8] Erik Serrano,et al. Adhesive Joints in Timber Engineering. Modelling and Testing of Fracture Properties , 2000 .

[9] Erik Serrano,et al. Glued-in rods for timber structures—An experimental study of softening behaviour , 2001 .

[10] T.A.C.M. van der Put,et al. Evaluation of perpendicular to grain failure of beams caused by concentrated loads of joints, V31 september 2000 , 2000 .

[11] Erik Serrano,et al. Glued-in rods for timber structures - a 3D model and finite element parameter studies , 2001 .

[12] W. Weibull. A statistical theory of the strength of materials , 1939 .