Implementation of the self-consistent Kröner–Eshelby model for the calculation of X-ray elastic constants for any crystal symmetry

In this paper, we will report about the implementation of the self-consistent Kröner–Eshelby model for the calculation of X-ray elastic constants for general, triclinic crystal symmetry. With applying appropriate symmetry relations, the point groups of higher crystal symmetries are covered as well. This simplifies the implementation effort to cover the calculations for any crystal symmetry. In the literature, several models can be found to estimate the polycrystalline elastic properties from single crystal elastic constants. In general, this is an intermediate step toward the calculation of the polycrystalline response to different techniques using X-rays, neutrons, or ultrasonic waves. In the case of X-ray residual stress analysis, the final goal is the calculation of X-ray Elastic constants. Contrary to the models of Reuss, Voigt, and Hill, the Kröner–Eshelby model has the benefit that, because of the implementation of the Eshelby inclusion model, it can be expanded to cover more complicated systems that exhibit multiple phases, inclusions or pores and that these can be optionally combined with a polycrystalline matrix that is anisotropic, i.e., contains texture. We will discuss a recent theoretical development where the approaches of calculating bounds of Reuss and Voigt, the tighter bounds of Hashin–Shtrikman and Dederichs–Zeller are brought together in one unifying model that converges to the self-consistent solution of Kröner–Eshelby. For the implementation of the Kröner–Eshelby model the well-known Voigt notation is adopted. The 4-rank tensor operations have been rewritten into 2-rank matrix operations. The practical difficulties of the Voigt notation, as usually concealed in the scientific literature, will be discussed. Last, we will show a practical X-ray example in which the various models are applied and compared.

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Self-Consistent Calculation of the X-Ray Elastic Constants of Polycrystalline Materials for Arbitrary Crystal Symmetry

Materials Science Forum ◽

10.4028/www.scientific.net/msf.404-407.127 ◽

2002 ◽

Vol 404-407 ◽

pp. 127-132 ◽

Cited By ~ 19

Author(s):

Harald Wern ◽

N. Koch ◽

T. Maas

Keyword(s):

Elastic Constants ◽

Crystal Symmetry ◽

Polycrystalline Materials ◽

X Ray ◽

Consistent Calculation ◽

Self Consistent

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A Study of the Effect of Extended Hounsfield Unit Range and Voxel Size on Defect Detection in Friction Stir Welds

Volume 2A: Advanced Manufacturing ◽

10.1115/imece2020-23274 ◽

2020 ◽

Author(s):

Ahmad M. R. Baydoun ◽

Ramsey F. Hamade

Keyword(s):

Gamma Rays ◽

Dissimilar Materials ◽

Hounsfield Unit ◽

Ct Scanning ◽

Ultrasonic Waves ◽

X Rays ◽

Internal Defects ◽

Voxel Size ◽

X Ray ◽

Friction Stir

Abstract Friction stir welding (FSW) is a novel welding method that is garnering attention, in part, due to its ability to join dissimilar materials. One of the challenges in producing dissimilar friction welded joints is ensuring the welds are defect-free. Nondestructive testing (NDT) methods such as ultrasonic waves, gamma rays, X-rays, and X-ray CT, are gaining popularity as a method to detect internal defects in FSW joints. In this study, dissimilar AA1050-AA6061-T6 FSW lap welds are Manufactured and then examined using an NDT X-ray CT technique. The effects of two critical X-ray CT scanning parameters (voxel size and Hounsfield unit (HU)) on the detection of internal defects are investigated. The samples are scanned via X-ray CT at two different voxel sizes (2.457 E−02 and 1.420 E−03 mm3) and two HU ranges (12-bit and 16-bit depth). The generated Digital Imaging and Communications in Medicine (DICOM) images are segmented based on a proper HU threshold found via the Otsu thresholding method. The findings show that Small voxel size (higher resolution) improves the ability of detecting internal defects and improves the effectiveness of the thresholding process. Higher HU range results in a wider separation between detected material peaks, thus enhancing the effectiveness of the thresholding process as well.

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Diffuse scattering and phason modes in the i-AlPdMn quasicrystalline phase

Zeitschrift für Kristallographie - Crystalline Materials ◽

10.1524/zkri.2005.220.12.1043 ◽

2005 ◽

Vol 220 (12) ◽

Cited By ~ 1

Author(s):

Marc de Boissieu ◽

Sonia Francoual

Keyword(s):

Elastic Constant ◽

Elastic Constants ◽

Intensity Distribution ◽

Diffuse Scattering ◽

Hydrodynamic Theory ◽

Quasicrystalline Phase ◽

X Rays ◽

X Ray ◽

Long Wavelength ◽

Diffusive Modes

AbstractWe review results obtained in the study of the diffuse scattering in the i-AlPdMn quasicrystal. Most of the diffuse scattering is the result of long wavelength phason modes. The shape and intensity distribution of the diffuse scattering is well reproduced using the generalised elasticity theory and two phason elastic constants. The temperature dependence of the diffuse scattering indicates a softening of the phason elastic constant as the temperature is lowered. Using coherent X-rays and photo-correlation X-ray spectroscopy, it is shown that phason modes are collective diffusive modes, in agreement with the hydrodynamic theory of long wavelength fluctuations in quasicrystals.

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X-ray-absorption and -emission spectra of aK2PdCl6crystal studied by the self-consistent-charge extended Hückel method

Physical Review B ◽

10.1103/physrevb.39.10288 ◽

1989 ◽

Vol 39 (14) ◽

pp. 10288-10295 ◽

Cited By ~ 8

Author(s):

Michihide Kitamura ◽

Chikara Sugiura ◽

Shinji Muramatsu

Keyword(s):

Emission Spectra ◽

The Self ◽

Absorption And Emission ◽

X Ray ◽

Absorption And Emission Spectra ◽

Extended Hückel ◽

Extended Hückel Method ◽

Hückel Method ◽

Self Consistent ◽

X Ray Absorption

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Diffusion, Winds and X-Rays from Magnetic Stars

Highlights of Astronomy ◽

10.1017/s1539299600018426 ◽

1998 ◽

Vol 11 (2) ◽

pp. 674-675

Author(s):

J. Babel

Keyword(s):

X Rays ◽

X Ray ◽

Self Consistent ◽

Magnetic Stars ◽

Consistent Approach

AbstractWe propose a self-consistent approach of the CP star phenomenon and try to solve simultaneously the problems of abundance spots, wind and X-ray emission from these stars. We also discuss the periodic X-ray emission from the 07V star θ1 Orionis C and its link with Bp stars.

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Nonlinear Elastic Properties of Micro-Heterogeneous Media

Journal of Engineering Materials and Technology ◽

10.1115/1.2904295 ◽

1994 ◽

Vol 116 (3) ◽

pp. 325-330 ◽

Cited By ~ 8

Author(s):

E. Kro¨ner

Keyword(s):

Statistical Methods ◽

Elastic Constants ◽

Linear Elasticity ◽

Heterogeneous Media ◽

Nonlinear Problems ◽

The Self ◽

Green Functions ◽

First Approximation ◽

Self Consistent ◽

Nonlinear Elastic

Utilizing statistical methods known from linear elasticity it is shown how effective 3rd (and higher) order elastic constants (TOEC) of micro-heterogeneous media can be calculated. Emphasis is put on the self consistent scheme. The ensemble average of the fluctuating TOEC yields a 0th approximation to the rigorous selfconsistent moduli. A first approximation is also given in closed form. The insight that the well-established statistical methods of the linear theory, which uses Green functions, are applicable also to nonlinear problems is considered as the main result of this paper.

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Stress determination through diffraction: establishing the link between Kröner and Voigt/Reuss limits

Powder Diffraction ◽

10.1017/s0885715615000238 ◽

2015 ◽

Vol 30 (2) ◽

pp. 99-103 ◽

Cited By ~ 2

Author(s):

Conal E. Murray ◽

Jean L. Jordan-Sweet ◽

Stephen W. Bedell ◽

E. Todd Ryan

Keyword(s):

Elastic Constants ◽

Mechanical Response ◽

Elastic Anisotropy ◽

Polycrystalline Materials ◽

X Rays ◽

Least Squares Regression ◽

Multiple Reflections ◽

Cubic Symmetry ◽

Grain Interaction ◽

Eshelby Inclusion

The quantification of stress in polycrystalline materials by diffraction-based methods relies on the proper choice of grain interaction model that links the observed strain to the elastic stress state in the aggregate. X-ray elastic constants (XEC) relate the strain as measured using X-rays to the state of stress in a quasi-isotropic ensemble of grains. However, the corresponding interaction models (e.g., Voigt and Reuss limits) often possess unlikely assumptions as to mechanical response of the individual grains. The Kröner limit, which employs a self-consistent scheme based on the Eshelby inclusion method, is based on a more physical representation of isotropic grain interaction. For polycrystalline aggregates composed of crystals with cubic symmetry, Kröner limit XEC are equal to those calculated from a linear combination of Reuss and Voigt XEC, where the weighting fraction, xKr, is solely a function of the single-crystal elastic constants and scales with the material's elastic anisotropy. This weighting fraction can also be experimentally determined using a linear, least-squares regression of diffraction data from multiple reflections. Data on metallic thin films reveals that this optimal experimental weighting fraction, x*, can vary significantly from xKr, as well as that of the Neerfeld limit (x = 0.5).

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Three-dimensional modelling of accretion columns: spatial asymmetry and self-consistent simulations

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa3560 ◽

2020 ◽

Vol 501 (1) ◽

pp. 564-575

Author(s):

M I Gornostaev

Keyword(s):

Radiation Flux ◽

Three Dimensional ◽

3D Models ◽

3D Modelling ◽

The Self ◽

Physical Parameters ◽

Hydrodynamic Simulations ◽

X Ray ◽

Self Consistent ◽

Column Base

ABSTRACT The paper presents the results of three-dimensional (3D) modelling of the structure and the emission of accretion columns formed above the surface of accreting strongly magnetized neutron stars under the circumstances when a pressure of the photons generated in the column base is enough to determine the dynamics of the plasma flow. On the foundation of numerical radiation hydrodynamic simulations, several 3D models of accretion column are constructed. The first group of the models contains spatially 3D columns. The corresponding calculations lead to the distributions of the radiation flux over the sidewalls of the columns which are not characterized by axial symmetry. The second group includes the self-consistent modelling of spectral radiative transfer and two-dimensional spatial structure of the column, with both thermal and bulk Comptonization taken into account. The changes in the structure of the column and the shape of X-ray continuum are investigated depending on physical parameters of the model.

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ON THE THEORY OF THE X-RAY DETERMINATION OF ELASTIC SCATTERING OF CATHODE RAYS

Canadian Journal of Research ◽

10.1139/cjr34-081 ◽

1934 ◽

Vol 11 (2) ◽

pp. 156-162

Author(s):

Darol K. Froman

Keyword(s):

Wave Length ◽

Absolute Measurement ◽

Theoretical Work ◽

The Self ◽

Solid Target ◽

X Rays ◽

Scattering Function ◽

X Ray ◽

Self Consistency

This paper is a continuation of Bubb's (1) theoretical work which relates the energies and momenta of cathode rays to the properties of X-ray photons produced by them. Bubb's results are used to determine a scattering function for the cathode rays in a target in terms of the intensities of X-rays of minimum wave-length emergent from the target at various angles to the incident cathode-ray stream. It is shown that the self-consistency of Bubb's results can be tested by measurements of the intensities of two components of these X-rays polarized in mutually perpendicular planes. Mention is made of an experiment now in progress designed to test Bubb's theory by an absolute measurement using a gaseous instead of a solid target.

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Standard Deviations in X-Ray Stress and Elastic Constants Due to Counting Statistics

Advances in X-ray Analysis ◽

10.1154/s0376030800020681 ◽

1988 ◽

Vol 32 ◽

pp. 377-388 ◽

Cited By ~ 4

Author(s):

Masanori Kurita

Keyword(s):

Elastic Constants ◽

Stress Measurement ◽

Steel Specimen ◽

Polycrystalline Materials ◽

X Rays ◽

Confidence Limits ◽

X Ray Diffraction ◽

X Ray ◽

Standard Deviations ◽

Counting Statistics

AbstractX-ray diffraction can be used to nondestructively measure residual stress of polycrystalline materials. In x-ray stress measurement, it is important to determine a stress constant experimentally in order to measure the stress accurately. However, every value measured by x-ray diffraction has statistical errors arising from counting statistics. The equations for calculating the standard deviations of the stress constant and elastic constants measured by x-rays are derived analytically in order to ascertain the reproducibility of the measured values. These standard deviations represent the size of the variability caused by counting statistics, and can be calculated from a single set of measurements by using these equations. These equations can apply Lu any meuhud for x-ray stress ifiesuremenL. The variances of the x-ray stress and elastic constants are expressed in terms of the linear combinations of the variances of the peak position. The confidence limits of these constants of a quenched and tempered steel specimen were determined by the Gaussian curve method. The 95% confidence limits of the stress constant were -314 ± 25 MFa/deg.

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