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Factors influencing the crystallization, phase and oxygen vacancy concentration in zirconiaKarapetrova, Euguenia 22 September 1997 (has links)
In order to achieve a better understanding of the processes that occur during
formation and sintering of zirconia, various chemical and physical techniques were
used. Along with Perturbation Angular Correlation spectroscopy, that allowed us to
investigate microscopic properties inside the nanometer-size zirconia grains, such
techniques as Scanning Electron Microscopy and X-ray diffraction were used for
determining the size of particles before and after sintering, and Neutron Activation
Analysis was employed for measuring the impurity levels in zirconia powders.
By controlling the initial conditions and heat treatment of the powders, we
investigated the dependence of formation of the charged defects on the existing
molecular structure and morphology of zirconia particles.
During the study, it was discovered that at low temperature the PAC frequencies of
tetragonal zirconia behave very similarly for all materials that were used in this study.
If stabilization is achieved by heavy doping, there are shifts and line-broadening due to
the presence of dopants but no obvious differences in the essential physics. One
material included in this group is Nb-doped zirconia that has no oxygen vacancies. It
was concluded that there are no detectable oxygen vacancies in our pure or lightly
doped tetragonal zirconia powders before they are heated into the temperature region
where sintering occurs.
Vacancies are incorporated as the samples are heated above 1050��C, the
temperature at which sintering becomes important. The oxygen vacancies in samples
that have been heated to 1200��C remain when cooled. We see no vacancy
concentration dependence on the atmosphere for samples not doped with +5 valent
elements in order to reduce the vacancy density at 1200��C. In several instances,
samples that had been heated to a maximum temperature of 1050��C or 1100��C
contained a vacancy density that was small (<100 ppm) but measurable. A reduced
oxygen pressure increased the oxygen vacancy density by a measurable amount in
these samples. Samples that are tetragonal at 800��C are well-sintered after being
heated to 1200��C. Samples that are monoclinic below 1170��C are very poorly sintered
at 1200��C and contain few vacancies. Flowing Cl in the system as the samples are
sintering retards the densification of the grains. These samples had the smallest density
of oxygen vacancies. / Graduation date: 1998
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New oxides of vanadium with unusual propertiesKorthuis, Vincent 01 November 1994 (has links)
Graduation date: 1995
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Complex oxides of 6p block elementsKodialam, Sasirekha 25 July 1994 (has links)
Graduation date: 1995
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Temperature measurement, electrical characteristics, and lorentz mixing of alkali seeded flamesPattee, Heidi Ann 23 January 1992 (has links)
When trace quantities of an alkali element are added to a flame,
its optical and electrical properties change significantly. Addition of
alkali seed to both premixed and diffusion flames has been used in the
development of two new techniques, one for flame temperature measurement
and the other for enhanced mixing.
Advantage has been taken of the spectral characteristics of alkali
seeds in the development of a non-invasive optical flame temperature
measurement technique. The strongest resonance line of alkalis is in
fact a doublet, and the two peaks can be subjected to different optical
treatment. A cesium-seeded flame was exposed to radiation which was
selectively filtered to yield different apparent source temperatures at
the wavelengths corresponding to the doublet resonance lines. The ratio
of the emission peak heights at the two wavelengths relates directly to
flame temperature. This technique allows real-time measurement of flame
temperatures up to 2800 K.
A second process has been investigated which takes advantage of the
enhanced electrical conductivity of alkali-seeded diffusion flames. The
study first required a characterization of electrical discharges through
planar diffusion flames. Because of the increase in conductivity,
alkali-seeded diffusion flames can carry current when a transverse
electric potential is applied. The behavior of diffusion flames
carrying electrical current has been investigated. The dependence on
electrode position and gap is reported and the behavior is contrasted
with that described in the literature for premixed flames.
A planar diffusion flame was subjected to a steady magnetic field
parallel to the flow direction while an orthogonal, oscillating current
passed through the flame sheet. A Lorentz body force was induced on the
flame sheet which acted to move it alternately toward the fuel and
oxidizer streams, improving bulk mixing in the flame. High-speed video
images of the oscillating flame were analyzed to obtain its maximum
lateral velocity. The results compared well with predictions from a
simple theoretical model. / Graduation date: 1992
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Electrosurgical tissue resection: a numerical studyProtsenko, Dmitriy Evgenievich 28 August 2008 (has links)
Not available / text
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Development and study of high-Tc superconductor conductive polymer assembliesSchougaard, Steen Brian 28 August 2008 (has links)
Not available / text
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THE THERMODYNAMIC BEHAVIOR OF BISMUTH IN MATTE, SLAG AND METAL PHASES DURING COPPER SMELTING AND CONVERTINGAraҫ, Sabri January 1980 (has links)
No description available.
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Characterization of growth and thermal behaviors of thin films for the advanced gate stack grown by chemical vapor depositionTaek Soo, Jeon 27 April 2011 (has links)
Not available / text
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Measurement of the temperature dependence of a fluorescent decay and its application to thermometrySholes, Robert Richard January 1980 (has links)
No description available.
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THERMALLY-ACTIVATED SERRATED YIELDING IN SELECTED ALUMINUM ALLOYSClough, Roger B. January 1967 (has links)
No description available.
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