An original method for the simulation of the dynamics of highly flexible slender structures is presented. The flexible structures are modeled via a finite element (FE) discretization of a geometrically exact two-dimensional beam model, which entirely preserves the geometrical nonlinearities inherent in such systems where the rotation of the cross-section can be extreme. The FE equation is solved by a combination of harmonic balance (HBM) and asymptotic numerical (ANM) methods. The novel solving scheme is rooted entirely in the frequency domain and is capable of computing both the structure’s frequency response under periodic external forces as well as its nonlinear modes. An overview of the proposed numerical strategy is outlined and simula...
Finite Element Models (FEMs) are widely used in order to study and predict the dynamic properties of...
This paper introduces a nonlinear reduced-order modelling methodology for finite-element models of s...
This paper describes a procedure to construct 1-D geometrically-nonlinear structural dynamics models...
An original method for the simulation of the dynamics of highly flexible slender structures is prese...
This paper presents a general methodology to compute nonlinear frequency responses of flat structure...
Simulation of structural dynamics involving global nonlinearities, such as large amplitude motion, i...
The need of lightweight design in structural engineering is steadily growing due to economic and eco...
editorial reviewedThe need of lightweight design in structural engineering is steadily growing due t...
The geometrically nonlinear free and steady-state forced vibration of simply-supported and clamped-c...
The literature and experiments have shown that nonlinear vibrations produce significant effects in s...
As global issues such as climate change and overpopulation continue to grow, the role of the enginee...
International audienceSolar arrays are structures which are connected to satellites; during launch, ...
In this paper the mathematical formulation of the equilibrium problem of high-flexible beams in the ...
In this paper, the effect of gravity on the nonlinear extreme amplitude vibrations of a slender, ver...
Nonlinear parametric response of a flexible cantilever beam is simulated. In the simulations, latera...
Finite Element Models (FEMs) are widely used in order to study and predict the dynamic properties of...
This paper introduces a nonlinear reduced-order modelling methodology for finite-element models of s...
This paper describes a procedure to construct 1-D geometrically-nonlinear structural dynamics models...
An original method for the simulation of the dynamics of highly flexible slender structures is prese...
This paper presents a general methodology to compute nonlinear frequency responses of flat structure...
Simulation of structural dynamics involving global nonlinearities, such as large amplitude motion, i...
The need of lightweight design in structural engineering is steadily growing due to economic and eco...
editorial reviewedThe need of lightweight design in structural engineering is steadily growing due t...
The geometrically nonlinear free and steady-state forced vibration of simply-supported and clamped-c...
The literature and experiments have shown that nonlinear vibrations produce significant effects in s...
As global issues such as climate change and overpopulation continue to grow, the role of the enginee...
International audienceSolar arrays are structures which are connected to satellites; during launch, ...
In this paper the mathematical formulation of the equilibrium problem of high-flexible beams in the ...
In this paper, the effect of gravity on the nonlinear extreme amplitude vibrations of a slender, ver...
Nonlinear parametric response of a flexible cantilever beam is simulated. In the simulations, latera...
Finite Element Models (FEMs) are widely used in order to study and predict the dynamic properties of...
This paper introduces a nonlinear reduced-order modelling methodology for finite-element models of s...
This paper describes a procedure to construct 1-D geometrically-nonlinear structural dynamics models...