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Formulation of the Green’s functions stiffness method for Euler–Bernoulli beams on elastic Winkler foundation with semi-rigid connections

The Green’s Functions Stiffness Method (GFSM) is a method to compute the analytic closed-form response (reactions, displacements, and internal forces fields) of structures. It merges the strengths of the stiffness method (SM) (an exact relation between forces and displacements at the ends of element...

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Published in:	Engineering structures 2022-09, Vol.266, p.114616, Article 114616
Main Authors:	Molina-Villegas, Juan Camilo, Ballesteros Ortega, Jorge Eliecer, Ruiz Cardona, David
Format:	Article
Language:	English
Subjects:	Closed form solutions Closed-form solution Computation Computational mechanics Displacement Elastic foundations Elastic Winkler foundation Euler-Bernoulli beams Euler–Bernoulli beam Exact solutions Finite element method Green functions Green's functions Green’s functions stiffness method Internal forces Mathematical analysis Semi-rigid connections Stiffness matrix Stiffness method Structural response
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description	The Green’s Functions Stiffness Method (GFSM) is a method to compute the analytic closed-form response (reactions, displacements, and internal forces fields) of structures. It merges the strengths of the stiffness method (SM) (an exact relation between forces and displacements at the ends of elements) with those of Green’s functions (computation of closed-form analytic structural response due to any arbitrary load). Its formulation is based on the decomposition of the structural response into homogeneous and fixed parts. The former depends on the degrees of freedom (joints displacements and rotations) and yields the stiffness matrix, while the latter depends on the external loads and is related to the fixed end forces vector. The element response is computed directly from the nodal displacements. First, the displacement fields are computed, and from their derivatives, the internal forces fields are obtained. This paper presents the formulation of the GFSM for Euler–Bernoulli beams on elastic Winkler foundation with semi-rigid connections and, as a particular case, for Euler–Bernoulli beams with semi-rigid connections. Additionally, two examples, and conclusions are presented. •The Green’s Function Stiffness Method is used to analize beams on elastic foundation.•Closed-form solutions are presented using the Green’s Function Stiffness Method.•The internal forces fields are computed from derivatives of the displacement fields.•The method is based on a decomposition of the response as a homogeneous and a fixed.
doi_str_mv	10.1016/j.engstruct.2022.114616
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subjects	Closed form solutions Closed-form solution Computation Computational mechanics Displacement Elastic foundations Elastic Winkler foundation Euler-Bernoulli beams Euler–Bernoulli beam Exact solutions Finite element method Green functions Green's functions Green’s functions stiffness method Internal forces Mathematical analysis Semi-rigid connections Stiffness matrix Stiffness method Structural response
title	Formulation of the Green’s functions stiffness method for Euler–Bernoulli beams on elastic Winkler foundation with semi-rigid connections
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