Your search keyword '"Bales, Ben"' showing total 2 results

1. Bayesian inference of elastic properties with resonant ultrasound spectroscopy.

Author

Bales, Ben, Petzold, Linda, Goodlet, Brent R., Lenthe, William C., and Pollock, Tresa M.

Subjects

*BAYESIAN analysis, *RESONANT ultrasound spectroscopy, *ELASTICITY, *INFERENTIAL statistics, *MONTE Carlo method

Abstract

Bayesian modeling and Hamiltonian Monte Carlo (HMC) are utilized to formulate a robust algorithm capable of simultaneously estimating anisotropic elastic properties and crystallographic orientation of a specimen from a list of measured resonance frequencies collected via Resonance Ultrasound Spectroscopy (RUS). Unlike typical optimization procedures which yield point estimates of the unknown parameters, computing a Bayesian posterior yields probability distributions for the unknown parameters, and HMC is an efficient way to compute this posterior. The algorithms described are demonstrated on RUS data collected from two parallelepiped specimens of structural metal alloys. First, the elastic constants for a specimen of fine-grain polycrystalline Ti-6Al-4 V with random crystallographic texture and isotropic elastic symmetry are estimated. Second, the elastic constants and crystallographic orientation for a single crystal Ni-based superalloy CMSX-4 specimen are accurately determined, using only measurements of the specimen geometry, mass, and resonance frequencies. The unique contributions of this paper are as follows: the application of HMC for sampling the Bayesian posterior of a probabilistic RUS model, and the procedure for simultaneous estimation of elastic constants and lattice-specimen misorientation. Compared to previous approaches these algorithms demonstrate superior convergence behavior, particularly when the initial parameterization is unknown, and enable substantially simplified experimental procedures. [ABSTRACT FROM AUTHOR]

Published

2018

2. A new elastic characterization method for anisotropic bilayer specimens via Bayesian resonant ultrasound spectroscopy.

Author

Goodlet, Brent R., Bales, Ben, and Pollock, Tresa M.

Subjects

*RESONANT ultrasound spectroscopy, *PLASMA sprayed coatings, *THERMAL barrier coatings, *ELASTICITY, *PARAMETER estimation, *SINGLE crystals

Abstract

A novel nondestructive method for complete elastic characterization of substrate-coating bilayer specimens with distinct anisotropic layers via resonant ultrasound spectroscopy (RUS) and Bayesian inversion is developed here. Bayesian formulations of the RUS inversion problem—of quantifying elastic properties given a measured list of resonance frequencies recorded from a single, typically small, precisely fabricated, macroscopically homogeneous, linear-elastic specimen—are a recent development. Here we report the first Bayesian formulation of the bilayer problem, and through a series of practical examples, demonstrate novel parameter estimation capabilities of our open-source CmdStan-RUS code. Finding specimen geometry and the number of resonance modes used for inversion strongly govern the ability to retrieve individual elastic moduli. The concept of "invertability" is explored for a range of relevant geometries using virtual specimens that resemble experimental bilayers of plasma sprayed ceramic coatings on single crystal metallic substrates. A range of Bayesian posterior evaluation methods are addressed, particularly considering the large computational cost of the bilayer forward model. Laplace approximation methods are thus developed and implemented for bilayer geometry design space modeling and expedient estimates of parameter uncertainties. Ideal specimen design, different noise models, the influence of prior distributions, dual-likelihood fits incorporating measurements of the bare substrate, and how Bayesian RUS methods differ from traditional RUS optimization are discussed. • Bayesian resonant ultrasound spectroscopy (RUS) is extended to bi-material bilayers. • Nondestructive elastic characterization of hexagonal coatings affixed to a substrate. • Laplace posterior approximations developed for design space modeling and estimation. • Specimen geometry and the modes used for RUS inversion strongly govern invertability. • Fits demonstrated on both virtual and real plasma spray-coated superalloy substrates. [ABSTRACT FROM AUTHOR]

Published

2021