Add to ORKGAbstract-A co-rotational finite element formulation for the dynamic analysis of a planar curved Euler beam is presented. The Euler-Bernoulli hypothesis and the initial curvature are properly considered for the kinematics of a curved beam. Both the deformational nodal forces and the inertial nodal forces of the beam element are systematically derived by consistent linearization of the fully geometrically nonlinear beam theory in element coordinates which are constructed at the current configuration of the correspond-ing beam element. An incremental-iterative method based on the Newmark direct integration method and the Newton-Raphson method is employed here for the solution of the nonlinear dynamic equilibrium equations. Numerical examples a...
En este trabajo se describe la formulación corrotacional de un elemento de viga que utiliza distinta...
This paper presents a finite-element formulation for the dynamic analysis of I-beams curved in-plan,...
The article extends the formulation of a 2D geometrically exact beam element proposed by Jirasek et ...
A co-rotational finite element formulation for the dynamic analysis of planar Euler beam is presente...
A novel rotation-free isogeometric formulation of in-plane dynamic analysis of an arbitrarily curved...
AbstractBased on exact Green strain of spatial curved beam, the nonlinear strain-displacement relati...
In this paper dynamic analysis of a curved Bernoulli – Euler beam subjected to a moving load is pres...
International audienceThis article presents an energy-momentum integration scheme for the nonlinear ...
The elastic response of curved beams subjected to moving vertical loads and dynamic loads is investi...
The linear and non-linear analysis of curved beams is a very classical but still very discussed topi...
An initially curved beam is considered and its motion is constrained using two elastic constraints; ...
Dissertação (mestrado)—Universidade de Brasília, Faculdade de Tecnologia, Departamento de Engenharia...
This paper studied the in-plane elastic stability including pre and post-buckling analysis of curved...
A two-node spatial beam element with the Euler-Bernoulli assumption is developed for the nonlinear d...
International audienceThis paper deals with Newmark time stepping methods and finite rotations for n...
En este trabajo se describe la formulación corrotacional de un elemento de viga que utiliza distinta...
This paper presents a finite-element formulation for the dynamic analysis of I-beams curved in-plan,...
The article extends the formulation of a 2D geometrically exact beam element proposed by Jirasek et ...
A co-rotational finite element formulation for the dynamic analysis of planar Euler beam is presente...
A novel rotation-free isogeometric formulation of in-plane dynamic analysis of an arbitrarily curved...
AbstractBased on exact Green strain of spatial curved beam, the nonlinear strain-displacement relati...
In this paper dynamic analysis of a curved Bernoulli – Euler beam subjected to a moving load is pres...
International audienceThis article presents an energy-momentum integration scheme for the nonlinear ...
The elastic response of curved beams subjected to moving vertical loads and dynamic loads is investi...
The linear and non-linear analysis of curved beams is a very classical but still very discussed topi...
An initially curved beam is considered and its motion is constrained using two elastic constraints; ...
Dissertação (mestrado)—Universidade de Brasília, Faculdade de Tecnologia, Departamento de Engenharia...
This paper studied the in-plane elastic stability including pre and post-buckling analysis of curved...
A two-node spatial beam element with the Euler-Bernoulli assumption is developed for the nonlinear d...
International audienceThis paper deals with Newmark time stepping methods and finite rotations for n...
En este trabajo se describe la formulación corrotacional de un elemento de viga que utiliza distinta...
This paper presents a finite-element formulation for the dynamic analysis of I-beams curved in-plan,...
The article extends the formulation of a 2D geometrically exact beam element proposed by Jirasek et ...