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X-ray scattering

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Journal Article
Published: 01 January 1995
Reviews in Mineralogy and Geochemistry (1995) 32 (1): 317-410.
Journal Article
Published: 01 January 2018
American Mineralogist (2018) 103 (1): 85-90.
...) of the “preliminary Earth reference model” (PREM), assuming a temperature of 5500 K and that silicon is the only light element in the inner core Sound velocity of Fe-Si alloy was measured using inelastic X-ray scattering at BL35XU ( Baron et al. 2000 ) of SPring-8. Si (9 9 9) backscattering optics were used...
FIGURES | View All (6)
Journal Article
Published: 01 February 2008
Mineralogical Magazine (2008) 72 (1): 159-162.
...I. A. M. Ahmed; S. Shaw; L. G. Benning Abstract The formation and transformation of hydroxysulphate (GRSO 4 ) and hydroxycarbonate (GRCO 3 ) Green Rusts were studied in situ using synchrotron-based time-resolved small and wide angle X-ray scattering. The time-resolved data revealed, for the first...
FIGURES
Journal Article
Published: 01 June 2003
Clays and Clay Minerals (2003) 51 (3): 293-300.
... of the methods used suffers from its own limitations and uncertainties. Small-angle X-ray scattering (SAXS) can be used to measure the thickness of particles that scatter X-rays coherently. We used SAXS to study suspensions of Na-rectorite and other illites with varying proportions of smectite. The scattering...
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Journal Article
Published: 01 August 2001
Clays and Clay Minerals (2001) 49 (4): 277-285.
...Chao Shang; James A. Rice; Jar-Shyong Lin Abstract An indirect Fourier transformation applied to small-angle X-ray scattering data has been used to determine the thickness and surface properties of two common clay minerals. For an illite system, the particle density distribution function (PDDF...
FIGURES | View All (6)
Journal Article
Published: 01 August 1982
American Mineralogist (1982) 67 (7-8): 676-685.
...Lung-Chuan Kuo; R. James Kirkpatrick Abstract The kinetics of nucleation in titanium-bearing and titanium-free diopside glasses has been studied at small undercoolings. Small angle X-ray scattering ( saxs ) techniques have been used to determine the concentration and size of nuclei with radii less...
Journal Article
Journal: Clay Minerals
Published: 01 July 1975
Clay Minerals (1975) 10 (5): 347-356.
Journal Article
Published: 01 June 1972
Journal of Sedimentary Research (1972) 42 (2): 356-358.
...Paul L. Broughton Abstract Leonardite is a naturally oxidized lignite characterized by high percentages of humic acids. Visual inspection is usually insufficient to distinguish leonardite from lignite. The low-angle X-ray scatterings from 8-2.5A degrees of lignite, leonardite and humic acids were...
Journal Article
Published: 01 June 1968
American Mineralogist (1968) 53 (5-6): 1015-1024.
...Takashi Watanabe Abstract Small-angle scattering of X rays by three kinds of clay minerals (allophane, hydrated halloysite and kaolinite) was observed over scattering angles from 8′ to 70′, in the range below 275 Å in radius of gyration, and was analyzed by Jellinek Solomon-I ankuchen s method...
Journal Article
Published: 01 October 1965
American Mineralogist (1965) 50 (10): 1563-1575.
...Ronald J. Arnott Abstract This paper describes an investigation of small-angle x -ray scattering as a possible technique for determining the particle size of clay minerals. The method used is that of Shull and Roess (1947) involving a graphical comparison of experimental scattering curves...
Image
<b>X</b>-<b>ray</b> <b>scattering</b> curves of the samples at 0.7 g&#x2F;cm 3  dry bulk density. The...
Published: 01 May 2016
Fig. 2. X-ray scattering curves of the samples at 0.7 g/cm 3 dry bulk density. The numbers in the legend correspond to the preparation procedures as marked in Table 1 .
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<b>X</b>-<b>ray</b> <b>scattering</b> curves of the samples at 1.0 g&#x2F;cm 3  dry bulk density. The...
Published: 01 May 2016
Fig. 3. X-ray scattering curves of the samples at 1.0 g/cm 3 dry bulk density. The numbers in the legend correspond to the preparation procedures as marked in Table 1 .
Image
<b>X</b>-<b>ray</b> <b>scattering</b> curves of the samples at 1.3 g&#x2F;cm 3  dry bulk density. The...
Published: 01 May 2016
Fig. 4. X-ray scattering curves of the samples at 1.3 g/cm 3 dry bulk density. The numbers in the legend correspond to the preparation procedures as marked in Table 1 .
Image
<b>X</b>-<b>ray</b> <b>scattering</b> curves of the samples at 1.5 g&#x2F;cm 3  dry bulk density. The...
Published: 01 May 2016
Fig. 5. X-ray scattering curves of the samples at 1.5 g/cm 3 dry bulk density. The numbers in the legend correspond to the preparation procedures as marked in Table 1 .
Image
Heating wire assembly on the <b>X</b>-<b>ray</b> <b>scattering</b> set-up at the DIFFABS beamlin...
Published: 01 January 2014
Figure 12 Heating wire assembly on the X-ray scattering set-up at the DIFFABS beamline.
Image
<b>X</b>-<b>ray</b> <b>scattering</b> diagram at 17.5 keV for the glass at 300 K, the stable liq...
Published: 01 January 2014
Figure 13 X-ray scattering diagram at 17.5 keV for the glass at 300 K, the stable liquid at 1873 K, and the partially annealed glass at 1173 K. The Bragg peaks visible in the annealed liquid diagram at 1173 K correspond to ZrO 2 crystals.
Image
Small-angle <b>X</b>-<b>ray</b> <b>scattering</b> profiles of Na-montmorillonite at 10–80 wt.% c...
Published: 01 August 2013
Figure 1 Small-angle X-ray scattering profiles of Na-montmorillonite at 10–80 wt.% clay in water. Inset: close up of the low-angle region of the 10 wt.% clay sample (λ = 1.099 Å).
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Small-angle <b>X</b>-<b>ray</b> <b>scattering</b> profiles of Na-montmorillonite at 0–1 M NaCl (...
Published: 01 August 2013
Figure 2 Small-angle X-ray scattering profiles of Na-montmorillonite at 0–1 M NaCl (30 wt.% clay; λ = 1.099 Å).
Image
Small-angle <b>X</b>-<b>ray</b> <b>scattering</b> profiles of Ca-montmorillonite in 0–1 M CaCl 2...
Published: 01 August 2013
Figure 3 Small-angle X-ray scattering profiles of Ca-montmorillonite in 0–1 M CaCl 2 (30 wt.% clay; λ = 1.099 Å).
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Results from small-angle <b>X</b>-<b>ray</b> <b>scattering</b> for samples in water. For each dr...
Published: 01 May 2013
Table 4. Results from small-angle X-ray scattering for samples in water. For each dry density the determined values are shown for average basal spacing d 1 of the most dominant hydration layer type and its estimated volume fraction p 1 . Corresponding values are given for the nearest