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Validation of a probabilistic model for mesoscale elasticity tensor of random polycrystals

Abstract : In this paper, we present validation of a probabilistic model for mesoscale elastic behavior of materials with microstructure. The linear elastic constitutive matrix of this model is described mathematically as a bounded random matrix. The bounds reflect theoretical constraints consistent with the theory of elasticity. We first introduce a statistical characterization of an experimental database on morphology and crystallography of polycrystalline microstructures. The resulting statistical model is used as a surrogate to further experimental data, required for calibration and validation. We then recall the construction of a probabilistic model for the random matrix characterizing the apparent elasticity tensor of a heterogeneous random medium. The calibration of this coarse scale probabilistic model using an experimental database of microstructural measurements and utilizing the developed microstructural simulation tool is briefly discussed. Before using the model as a predictive tool in a system level simulation for the purpose of detection and prognosis, the credibility of the model must be established through evaluating the degree of agreement between the predictions of the model and the observations. As such, a procedure is presented to validate the probabilistic model from simulated data resulting from subscale simulations. Suitable quantities of interest are introduced and predictive accuracy of the model is studied by comparing probability density functions of response quantities of interest. The validation task is exercised under both static and dynamic loading condition. The results indicate that the probabilistic model of mesoscale elasticity tensor is adequate to predict the response quantity of interest in the elastostatic regime. The scatter in the model predictions is found to be consistent with the fine scale response. In the case of elastodynamic, the model predicts the mean behavior for lower frequency for which we have a quasistatic regime.
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Contributor : J. Guilleminot Connect in order to contact the contributor
Submitted on : Monday, April 8, 2013 - 12:14:02 PM
Last modification on : Thursday, September 29, 2022 - 2:21:15 PM


  • HAL Id : hal-00808974, version 1


A. Noshadravan, R. Ghanem, J. Guilleminot, I. Atodaria, P. Peralta. Validation of a probabilistic model for mesoscale elasticity tensor of random polycrystals. International Journal for Uncertainty Quantification, Begell House Publishers, 2013, 3 (1), pp.Pages 73-100. ⟨hal-00808974⟩



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