Add to ORKGThe subject of this paper is the general formulation of a model for scarf adhesive joints in timber beams within the framework of plane linear elasticity. It is assumed that wood is orthotropic. The joint can be subjected to a complex loading state inc-luding an axial force, a bending moment and a shear force. The joint model is given in displacements by means of a set of four partial differential equations of the se-cond order. Boundary conditions cater for sharp edges in the adherends. Complete solutions to theory of elasticity equations are presented and discussed. The manner in which the joint transmits the axial force, the bending moment and the shear force is presented. It is shown that the scarf joint does not feature stress concentr...
International audienceIn this paper, accurate numerical analyses of the stress distributions within ...
The paper is dedicated to the numerical analysis of a single-step joint, enabling the prediction of ...
This article deals with a new original analytical solution of deformation, force and stress states i...
The subject of this paper is the general formulation of a model for scarf adhesive joints in timber ...
The present work discusses the use of a finite element to model the behavior of adhesive in bonding ...
International audienceThe scarf joint is a usual experimental assembly employed to analyze the mecha...
The purpose of this study is to determine the stress distribution in the carpentry joint of halved a...
This article presents a nonlinear finite element model developed to simulate the load-deformation be...
Bond-line creates an interface between two glued surfaces and, therefore, its brings additional comp...
The competitiveness of timber as structural material in large structures is often governed by the co...
With the development of automated design and fabrication tools, researchers have shown a growing int...
Joints, which are essential parts of timber structures, must be designed to support expected loads d...
A nonlinear finite element model is developed to study the behavior of single- and double-bolted tim...
The stress distributions in scarf adhesive joints under static tensile loadings are analyzed using t...
A new numerical model for wood-adhesive joints, which allows an efficient hygro-mechanical analysis ...
International audienceIn this paper, accurate numerical analyses of the stress distributions within ...
The paper is dedicated to the numerical analysis of a single-step joint, enabling the prediction of ...
This article deals with a new original analytical solution of deformation, force and stress states i...
The subject of this paper is the general formulation of a model for scarf adhesive joints in timber ...
The present work discusses the use of a finite element to model the behavior of adhesive in bonding ...
International audienceThe scarf joint is a usual experimental assembly employed to analyze the mecha...
The purpose of this study is to determine the stress distribution in the carpentry joint of halved a...
This article presents a nonlinear finite element model developed to simulate the load-deformation be...
Bond-line creates an interface between two glued surfaces and, therefore, its brings additional comp...
The competitiveness of timber as structural material in large structures is often governed by the co...
With the development of automated design and fabrication tools, researchers have shown a growing int...
Joints, which are essential parts of timber structures, must be designed to support expected loads d...
A nonlinear finite element model is developed to study the behavior of single- and double-bolted tim...
The stress distributions in scarf adhesive joints under static tensile loadings are analyzed using t...
A new numerical model for wood-adhesive joints, which allows an efficient hygro-mechanical analysis ...
International audienceIn this paper, accurate numerical analyses of the stress distributions within ...
The paper is dedicated to the numerical analysis of a single-step joint, enabling the prediction of ...
This article deals with a new original analytical solution of deformation, force and stress states i...