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Bayesian analysis for estimating statistical parameter distributions of elasto-viscoplastic material models

Journal Article · · Probabilistic Engineering Mechanics
 [1];  [1]
  1. Argonne National Laboratory (ANL), Argonne, IL (United States)
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High temperature design methods rely on constitutive models for inelastic deformation and failure typically calibrated against the mean of experimental data without considering the associated scatter. Variability may arise from the experimental data acquisition process, from heat-to-heat material property variations, or both and need to be accurately captured to predict parameter bounds leading to efficient component design. Applying the Bayesian Markov Chain Monte Carlo (MCMC) method to produce statistical models capturing the underlying uncertainty in the experimental data is an area of ongoing research interest. This work varies aspects of the Bayesian MCMC method and explores their effect on the posterior parameter distributions for a uniaxial elasto-viscoplastic damage model using synthetically generated reference data. From our analysis with the uniaxial inelastic model we determine that an informed prior distribution including different types of test conditions results in more accurate posterior parameter distributions. The parameter posterior distributions, however, do not improve when increasing the number of similar experimental data. Additionally, changing the amount of scatter in the data affects the quality of the posterior distributions, especially for the less sensitive model parameters. Moreover, we perform a sensitivity study of the model parameters against the likelihood function prior to the Bayesian analysis. The results of the sensitivity analysis help to determine the reliability of the posterior distributions and reduce the dimensionality of the problem by fixing the insensitive parameters. The comprehensive study described in this work demonstrates how to efficiently apply the Bayesian MCMC methodology to capture parameter uncertainties in high temperature inelastic material models. Quantifying these uncertainties in inelastic models will improve high temperature engineering design practices and lead to safer, more effective component designs.

Research Organization:
Argonne National Laboratory (ANL), Argonne, IL (United States)
Sponsoring Organization:
USDOE Office of Nuclear Energy (NE), Nuclear Energy Advanced Modeling and Simulation (NEAMS)
Grant/Contract Number:
AC02-06CH11357
OSTI ID:
1994550
Journal Information:
Probabilistic Engineering Mechanics, Journal Name: Probabilistic Engineering Mechanics Vol. 66; ISSN 0266-8920
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (43)

Data-driven model reduction for the Bayesian solution of inverse problems: DATA-DRIVEN MODEL REDUCTION FOR INVERSE PROBLEMS
  • Cui, Tiangang; Marzouk, Youssef M.; Willcox, Karen E.
  • International Journal for Numerical Methods in Engineering, Vol. 102, Issue 5 https://doi.org/10.1002/nme.4748
journal August 2014
Identification of material parameters for inelastic constitutive models: Stochastic simulations for the analysis of deviations journal July 2000
Modelling and experimental study of the tertiary creep stage of Grade 91 steel journal February 2011
Bayesian inference to identify parameters in viscoelasticity journal August 2017
A Tutorial on Bayesian Inference to Identify Material Parameters in Solid Mechanics journal January 2019
Constitutive equations for creep rupture journal September 1977
Probabilistic considerations of creep crack growth journal December 1994
An inverse method for determining viscoplastic properties of aluminium alloys journal September 1994
Making best use of model evaluations to compute sensitivity indices journal May 2002
Fundamental Problems in Viscoplasticity book May 1966
Probabilistic analysis of creep crack initiation and growth in pipe components journal July 2003
Global sensitivity indices for nonlinear mathematical models and their Monte Carlo estimates journal February 2001
On the simultaneous estimation of model parameters used in constitutive laws for inelastic material behaviour journal January 1999
An anisotropic viscoelastoplastic model for composites—sensitivity analysis and parameter estimation journal January 2003
Measuring the critical resolved shear stresses in Mg alloys by instrumented nanoindentation journal June 2014
Assessment of surface and bulk-dominated methodologies to measure critical resolved shear stresses in hexagonal materials journal February 2020
Bayesian uncertainty quantification and propagation for discrete element simulations of granular materials journal December 2014
A Bayesian approach to selecting hyperelastic constitutive models of soft tissue journal July 2015
A computational framework for Bayesian inference in plasticity models characterisation journal July 2017
Evaluation of an inverse methodology for estimating constitutive parameters in face-centered cubic materials from single crystal indentations journal November 2017
Identification of material parameters for inelastic constitutive models: statistical analysis and design of experiments journal August 2004
Ratchetting of viscoplastic material with cyclic softening, part 1: experiments on modified 9Cr?1Mo steel journal January 2005
On the determination of material parameters for internal variable thermoelastic–viscoplastic constitutive models journal August 2007
A review of some plasticity and viscoplasticity constitutive theories journal October 2008
Evaluating and modeling rate sensitivity in advanced reactor structural materials: 316H, Gr. 91, and A617 journal December 2019
Viscoplastic parameter estimation by high strain-rate experiments and inverse modelling – Speckle measurements and high-speed photography journal January 2007
Creep behaviour of modified 9Cr–1Mo ferritic steel journal May 2011
Uncertainty analysis of solder alloy material parameters estimation based on model calibration method journal June 2012
Long-term creep deformation property of modified 9Cr–1Mo steel journal June 2009
Creep-fatigue behavior of turbine disc of superalloy GH720Li at 650 °C and probabilistic creep-fatigue modeling journal July 2016
Identifying elastoplastic parameters with Bayes’ theorem considering output error, input error and model uncertainty journal January 2019
Bayesian uncertainty quantification and propagation for validation of a microstructure sensitive model for prediction of fatigue crack initiation journal August 2017
Aleatory or epistemic? Does it matter? journal March 2009
An Introduction to MCMC for Machine Learning journal January 2003
Study of the sensitivity of coupled reaction systems to uncertainties in rate coefficients. II Applications journal October 1973
Probabilistic design for turbine disk at high temperature journal July 2011
Parameter estimation for a viscoplastic damage model using a gradient‐based optimization algorithm journal November 1998
Bayesian calibration of computer models journal August 2001
Probability and Possibility-Based Representations of Uncertainty in Fault Tree Analysis journal July 2012
Probabilistic Lifetime Assessment Approach of 2%-Cr Steel Considering Material and Loading Profile Scatter journal November 2019
Unified Inelastic Constitutive Model for Modified 9Cr-lMo Steel Incorporating Dynamic Strain Aging Effect. journal January 1999
Bayesian Inference of Heterogeneous Viscoplastic Material Parameters journal December 2018
SALib: An open-source Python library for Sensitivity Analysis journal January 2017

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Related Subjects

42 ENGINEERING
High temperature
Inelastic parameters
Markov Chain Monte Carlo
Sensitivity analysis
Statistical modeling