In this paper, we propose a stochastic model to describe over time the evolution of stress in a bolted mechanical structure depending on different thicknesses of a joint elastic piece. First, the studied structure and the experiment numerical simulation are presented. Next, we validate statistically our proposed stochastic model, and we use the maximum likelihood estimation method based on Euler–Maruyama scheme to estimate the parameters of this model. Thereafter, we use the estimated model to compare the stresses, the peak times, and extinction times for different thicknesses of the elastic piece. Some numerical simulations are carried out to illustrate different results
This paper represents a multidisciplinary approach to biomechanics (medicine engineering and mathema...
This work aims at the application of the Stochastic approach for the Theory of Plastic Mechanism Con...
Even in the simple linear elastic range, the material behavior is not deterministic, but fluctuates ...
International audienceAssembled structures involve non-linear phenomena, as contact or friction, loc...
International audienceThis paper proposes a procedure to identify a stochastic Bouc-Wen model for de...
Bolt-jointed structure is widely used in engineering fields. The dynamic characteristics of bolt-joi...
This paper reports on the computational modelling of static extension tests of the round steel bar. ...
\u3cp\u3eEven in the simple linear elastic range, the material behavior is not deterministic, but fl...
From the analysis of experimentally observed variations in surface strains with loading in reinforce...
International audiencePredictive simulations of assembled structures raises some computational chall...
Stochastic fluctuations of material properties, i.e. the elastic constants, result in stochastic flu...
The principal goal of this work is to investigate an application of the stochastic perturbation tech...
The starting-point of this dissertation was the stochastic model of STECK which simulates the essent...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
This paper represents a multidisciplinary approach to biomechanics (medicine engineering and mathema...
This work aims at the application of the Stochastic approach for the Theory of Plastic Mechanism Con...
Even in the simple linear elastic range, the material behavior is not deterministic, but fluctuates ...
International audienceAssembled structures involve non-linear phenomena, as contact or friction, loc...
International audienceThis paper proposes a procedure to identify a stochastic Bouc-Wen model for de...
Bolt-jointed structure is widely used in engineering fields. The dynamic characteristics of bolt-joi...
This paper reports on the computational modelling of static extension tests of the round steel bar. ...
\u3cp\u3eEven in the simple linear elastic range, the material behavior is not deterministic, but fl...
From the analysis of experimentally observed variations in surface strains with loading in reinforce...
International audiencePredictive simulations of assembled structures raises some computational chall...
Stochastic fluctuations of material properties, i.e. the elastic constants, result in stochastic flu...
The principal goal of this work is to investigate an application of the stochastic perturbation tech...
The starting-point of this dissertation was the stochastic model of STECK which simulates the essent...
A nonlinear stochastic finite element-based procedure is developed for reliability analyses of struc...
This paper represents a multidisciplinary approach to biomechanics (medicine engineering and mathema...
This work aims at the application of the Stochastic approach for the Theory of Plastic Mechanism Con...
Even in the simple linear elastic range, the material behavior is not deterministic, but fluctuates ...