Search results for Materials Science

F42 Quantitative Energy-Dispersive Electron Probe X-ray Microanalysis of Individual Particles—Invited
C.-U. Ro
Journal:

Powder Diffraction / Volume 20 / Issue 2 / June 2005

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20 May 2016, p. 186
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D-15 Invited—Laboratory-Based Characterization of Heteroepitaxial Structures: Advanced Experiments Not Needing Synchrotron Radiation
P. Zaumseil
Journal:

Powder Diffraction / Volume 24 / Issue 2 / June 2009

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20 May 2016, p. 171
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D-53 Development of a Predictive Life Tool for Tapered Roller Bearings Using Measured Residual Stress and Retained Austenite Data
B. M. Wilson, M. G. Dick
Journal:

Powder Diffraction / Volume 22 / Issue 2 / June 2007

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20 May 2016, p. 186
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F44 Confocal micro X-ray fluorescence: 3-dimensional density mapping
B. M. Patterson, G. J. Havrilla, K. Defriend
Journal:

Powder Diffraction / Volume 21 / Issue 2 / June 2006

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20 May 2016, p. 178
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F-25 Invited—XRF Detection of Heavy Metal Pesticides in Archaeological and Anthropological Artifacts
A. N. Shugar
Journal:

Powder Diffraction / Volume 23 / Issue 2 / June 2008

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20 May 2016, p. 176
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S155 Investigation of Residual Stress Distribution in Ferritic Steel Weld Measured by Neutron and Synchrotron Diffraction
A. M. Paradowska, J. H. W. Price, R. Ibrahim, T. R. Finlayson, U. Lienert, R. Blevins
Journal:

Powder Diffraction / Volume 23 / Issue 2 / June 2008

Published online by Cambridge University Press:

20 May 2016, p. 189
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D-4 Crystal Structure of Guaifenesin, 3-(2-Methoxyphenoxy)-1,2-Propanediol
J. A. Kaduk
Journal:

Powder Diffraction / Volume 19 / Issue 2 / June 2004

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20 May 2016, p. 204
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C-6 Characterization of X-ray Powder Diffraction Data of BaxSr1−xSo4 (0≤x≤1) by Rietveld Refinement
S. R. Zaidi, H. Sitepu, S. Shen, N. Al-Yami
Journal:

Powder Diffraction / Volume 25 / Issue 2 / June 2010

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20 May 2016, p. 217
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S208 Experimental Investigation of Residual Stress in Laser Shock Peened Friction Stir Weld Joints
O. Hatamleh, A. T. DeWald, M. R. Hill
Journal:

Powder Diffraction / Volume 23 / Issue 2 / June 2008

Published online by Cambridge University Press:

20 May 2016, p. 183
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C-7 Employing X-ray Scattering to Characterize Materials with Grain Sizes in the Nano-Regime
E. A. Laitila, D. E. Mikkola
Journal:

Powder Diffraction / Volume 22 / Issue 2 / June 2007

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20 May 2016, p. 184
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D010 Micro X-ray powder diffraction. Ab-initio structure determination from microgram samples
N. Bhuvanesh, J. Reibenspies
Journal:

Powder Diffraction / Volume 21 / Issue 2 / June 2006

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20 May 2016, p. 172
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D-100 In-Situ Structure Development During the Melt Spinning of Nylon 66—Invited
J. D. Londono, H. Chang, R. V. Davidson, J. Potter
Journal:

Powder Diffraction / Volume 19 / Issue 2 / June 2004

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20 May 2016, p. 201
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Preconcentration of environmental waters by agar for XRF analysis
Kazuhiko Nakano, Kenta Okubo, Kouichi Tsuji
Journal:

Powder Diffraction / Volume 24 / Issue 2 / June 2009

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20 May 2016, pp. 135-139
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We have developed a convenient and effective XRF analysis procedure for trace amount of K, Ca, V, Mn, Fe, Ni, Cu, Zn, Cd, and Pb in environmental waters by using a preconcentration using the natural polymer (agar). The thin agar film was prepared by drying a homogeneous agar gel after mixing the aqueous sample solution with the agar powder. XRF analysis of the preconcentrated thin agar films containing trace metals showed a good repeatability because agar films were homogeneous enough. SB (signal to noise) ratios of the XRF intensity of the analytes were improved drastically. The linear calibration curves of K, Ca, V, Mn, Fe, Ni, Cu, Zn, Cd, and Pb showed a good linearity within the calibration ranges. The lower limits of detection (LLD) were 1.4 μg/mL for K, 0.26 μg/mL for Ca, 0.088 μg/mL for V, 0.029 μg/mL for Mn, 0.11 μg/mL for Fe, 0.016 μg/mL for Ni, 0.030 μg/mL for Cu, 0.017 μg/mL for Zn, 0.20 μg/mL for Cd, and 0.066 μg/mL for Pb, respectively. The proposed preconcentration method was applied to several environmental water samples.

F-4 Quantification of Two-Polymeric Phases in Paint Formulation by X-ray Fluorescence and X-ray Photoelectron Spectroscopy
P. Ricou, R. Gupta
Journal:

Powder Diffraction / Volume 25 / Issue 2 / June 2010

Published online by Cambridge University Press:

20 May 2016, p. 215
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F-50 Invited—Incorporating the Concept of Secondary Targets in Handheld X-ray Fluorescence to Increase Sensitivity of Minor Elements
C. McGlinchey, B. Kaiser, T. Howe
Journal:

Powder Diffraction / Volume 25 / Issue 2 / June 2010

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20 May 2016, p. 216
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D042 Intensity vs. Resolution and Peak Shape in X-ray Diffraction; Single and Double Goebel Mirror Configurations Compared to Standard Parafocusing Optics
E. J. Peterson, W. L. Hults, J. A. Valdez, H. Cordes, J. B. Litteer
Journal:

Powder Diffraction / Volume 18 / Issue 2 / June 2003

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20 May 2016, p. 178
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D102 Welcome to the new world of mini X-ray systems
T. McNulty, S. Bird, A. Martin, L. Daniels
Journal:

Powder Diffraction / Volume 21 / Issue 2 / June 2006

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20 May 2016, p. 170
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S134 In-Situ Study of the Cyclic Deformation Behaviour of the Magnesium Base Wrought Alloy AZ31 By Means of High Energy Synchrotron Diffraction
J. Gibmeier, M. Götting, B. Scholtes
Journal:

Powder Diffraction / Volume 23 / Issue 2 / June 2008

Published online by Cambridge University Press:

20 May 2016, p. 184
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F-72 RoHS Compliance in Paints and Resins
A. Seyfarth, A. Buehler, K. Behrens, J. Sardisco
Journal:

Powder Diffraction / Volume 23 / Issue 2 / June 2008

Published online by Cambridge University Press:

20 May 2016, p. 176
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S99 Near Surface Stress Gradients Analysis by GIXRD on Laser Shocked 6056 Aluminium Alloy Samples
H. B. Song, P. Peyre, V. Ji, C. H. Jiang
Journal:

Powder Diffraction / Volume 23 / Issue 2 / June 2008

Published online by Cambridge University Press:

20 May 2016, p. 183
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106117 results in Materials Science

F42 Quantitative Energy-Dispersive Electron Probe X-ray Microanalysis of Individual Particles—Invited

D-15 Invited—Laboratory-Based Characterization of Heteroepitaxial Structures: Advanced Experiments Not Needing Synchrotron Radiation

D-53 Development of a Predictive Life Tool for Tapered Roller Bearings Using Measured Residual Stress and Retained Austenite Data

F44 Confocal micro X-ray fluorescence: 3-dimensional density mapping

F-25 Invited—XRF Detection of Heavy Metal Pesticides in Archaeological and Anthropological Artifacts

S155 Investigation of Residual Stress Distribution in Ferritic Steel Weld Measured by Neutron and Synchrotron Diffraction

D-4 Crystal Structure of Guaifenesin, 3-(2-Methoxyphenoxy)-1,2-Propanediol

C-6 Characterization of X-ray Powder Diffraction Data of BaxSr1−xSo4 (0≤x≤1) by Rietveld Refinement

S208 Experimental Investigation of Residual Stress in Laser Shock Peened Friction Stir Weld Joints

C-7 Employing X-ray Scattering to Characterize Materials with Grain Sizes in the Nano-Regime

D010 Micro X-ray powder diffraction. Ab-initio structure determination from microgram samples

D-100 In-Situ Structure Development During the Melt Spinning of Nylon 66—Invited

Preconcentration of environmental waters by agar for XRF analysis

F-4 Quantification of Two-Polymeric Phases in Paint Formulation by X-ray Fluorescence and X-ray Photoelectron Spectroscopy

F-50 Invited—Incorporating the Concept of Secondary Targets in Handheld X-ray Fluorescence to Increase Sensitivity of Minor Elements

D042 Intensity vs. Resolution and Peak Shape in X-ray Diffraction; Single and Double Goebel Mirror Configurations Compared to Standard Parafocusing Optics

D102 Welcome to the new world of mini X-ray systems

S134 In-Situ Study of the Cyclic Deformation Behaviour of the Magnesium Base Wrought Alloy AZ31 By Means of High Energy Synchrotron Diffraction

F-72 RoHS Compliance in Paints and Resins

S99 Near Surface Stress Gradients Analysis by GIXRD on Laser Shocked 6056 Aluminium Alloy Samples

Materials Science

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106117 results in Materials Science