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A new cubic equation of stateAtilhan, Mert 30 September 2004 (has links)
Thermodynamic properties are essential for the design of chemical processes, and they are most useful in the form of an equation of state (EOS). The motivating force of this work is the need for accurate prediction of the phase behavior and thermophysical properties of natural gas for practical engineering applications. This thesis presents a new cubic EOS for pure argon. In this work, a theoretically based EOS represents the PVT behavior of pure fluids. The new equation has its basis in the improved Most General Cubic Equation of State theory and forecasts the behavior of pure molecules over a broad range of fluid densities at both high and low pressures in both single and multiphase regions. With the new EOS, it is possible to make accurate estimations for saturated densities and vapor pressures. The density dependence of the equation results from fitting isotherms of test substances while reproducing the critical point, and enforcing the critical point criteria. The EOS includes analytical functions to fit the calculated temperature dependence of the new EOS parameters.
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A new cubic equation of stateAtilhan, Mert 30 September 2004 (has links)
Thermodynamic properties are essential for the design of chemical processes, and they are most useful in the form of an equation of state (EOS). The motivating force of this work is the need for accurate prediction of the phase behavior and thermophysical properties of natural gas for practical engineering applications. This thesis presents a new cubic EOS for pure argon. In this work, a theoretically based EOS represents the PVT behavior of pure fluids. The new equation has its basis in the improved Most General Cubic Equation of State theory and forecasts the behavior of pure molecules over a broad range of fluid densities at both high and low pressures in both single and multiphase regions. With the new EOS, it is possible to make accurate estimations for saturated densities and vapor pressures. The density dependence of the equation results from fitting isotherms of test substances while reproducing the critical point, and enforcing the critical point criteria. The EOS includes analytical functions to fit the calculated temperature dependence of the new EOS parameters.
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Volume measurements of human upper-arm muscles using compounded ultrasound imaging systemFares, Ali F. January 1995 (has links)
Thesis (M.S.)--Ohio University, June, 1995. / Title from PDF t.p.
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On triangles circumscribed about a conic and inscribed in a cubic curveDe Cleene, Louis Antoine Victor, January 1927 (has links)
Thesis (Ph. D.)--Catholic University of America, 1927. / Biographical sketch.
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Ion Beam Modifications of Boron Nitride By Ion ImplantationMachaka, Ronald 29 August 2008 (has links)
The search for alternative methods of synthesizing cubic boron nitride (cBN), one of
the hardest known materials, at low thermo-baric conditions has stimulated considerable
research interest due to its great potential for numerous practical industrial applications.
The practical applications are motivated by the material’s amazing combination of extraordinarily superior properties.
The cBN phase is presently being synthesized from
graphite-like boron nitride modifications at high thermo-baric conditions in the presence
of catalytic solvents or by ion–beam assisted (chemical and physical) deposition methods.
However, the potential and performance of cBN have not been fully realized largely due
to central problems arising from the aforementioned synthesis methods.
The work reported in this dissertation is inspired by the extensive theoretical investigation of the influence of defects in a ecting the transformation of the hexagonal boron nitride (hBN) phase to the cBN phase that was carried out by Mosuang and Lowther (Phys
Rev B 66, 014112 (2002)). From their investigation, using an ab-initio local density approach, for the B, C, N, and O simple defects in hBN, they concluded that the defects
introduced into hBN could facilitate a low activation–energy hexagonal-to-cubic boron
nitride phase transformation, under less extreme conditions.
We use ion implantation as a technique of choice for introducing ‘controlled’ defects
into the hot–pressed polycrystalline 99.9% hBN powder samples. The reasons are that the
technique is non–equilibrium (not influenced by dilusion laws) and controllable, that is
the species of ions, their energy and number introduced per unit area can be changed and
monitored easily. We investigate the structural modifications of hBN by ion implantation.
Emphasis is given to the possibilities of influencing a low activation–energy hBN-to-cBN
phase transformation. The characterization of the structural modifications induced to the
hBN samples by implanting with He+ ions of energies ranging between 200 keV and 1.2
MeV, at fluences of up to 1.0 1017 ionscm2, was accomplished by correlating results
from X-Ray Di raction (XRD), micro-Raman (-Raman) spectroscopy measurements,
and two-dimensional X-Y Raman (2D-Raman) mapping measurements. The surface to
pography of the samples was investigated using Scanning Electron Microscopy (SEM).
E orts to use Surface Brillouin Scattering (SBS) were hampered by the transparency of
the samples to the laser light as well as the large degree of surface roughness. All the
implantations were carried out at room temperature under high vacuum.
2D-Raman mapping and -Raman spectroscopy measurements done before and after
He+ ion irradiation show that an induced hBN-to-cBN phase transformation is possible:
nanocrystals of cBN have been observed to have nucleated as a consequence of ion implantation,the extent of which is dictated by the fluences of implantation.
The deviationof the measured spectra from the Raman spectra of single crystal cBN is expected, has been observed before and been attributed to phonon confinement e ects. Also observed are phase transformations from the pre-existing hBN modification to: (a) the amorphous boron nitride (aBN), (b) the rhombohedral boron nitride (rBN) modifications, (c) crystalline and amorphous boron clusters, which are a result of the agglomeration of elementary boron during and immediately after ion implantation.
These transformations were observed at high energies. Unfortunately, the XRD measurements carried out could not complement the Raman spectroscopy outcomes probably because the respective amounts of the transformed materials were well below the detection limit of the instrument used in the former case.
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Maximal Unramified Extensions of Cyclic Cubic FieldsWong, Ka Lun 05 July 2011 (has links) (PDF)
Maximal unramified extensions of quadratic number fields have been well studied. This thesis focuses on maximal unramified extensions of cyclic cubic fields. We use the unconditional discriminant bounds of Moreno to determine cyclic cubic fields having no non-solvable unramified extensions. We also use a theorem of Roquette, developed from the method of Golod-Shafarevich, and some results by Cohen to construct cyclic cubic fields in which the unramified extension is of infinite degree.
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On the Computation of Invariants in non-Normal, non-Pure Cubic Fields and in Their Normal ClosuresCline, Danny O. 03 December 2004 (has links)
Let K=Q(theta) be the algebraic number field formed by adjoining theta to the rationals where theta is a real root of an irreducible monic cubic polynomial f(x) in Z[x]. If theta is not the cube root of a rational integer, we call the field K a non-pure cubic field, and if K doesn't contain the conjugates of theta, we call K a non-normal cubic field. A method described by Martinet and Payan allows us to construct such fields from elements of a quadratic field. In this work, we examine such non-normal, non-pure cubic fields and their normal closures, using algorithms in Mathematica to compute various invariants of these fields. In addition, we prove general results relating the ranks of the ideal class groups of the rings of integers of these cubic fields to those of their normal closures. / Ph. D.
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Constructing Simultaneous Diophantine Approximations Of Certain Cubic NumbersHinkel, Dustin January 2014 (has links)
For K a cubic field with only one real embedding and α, β ϵ K, we show how to construct an increasing sequence {m_n} of positive integers and a subsequence {ψ_n} such that (for some constructible constants γ₁, γ₂ > 0): max{ǁm_nαǁ,ǁm_nβǁ} < [(γ₁)/(m_n^(¹/²))] and ǁψ_nαǁ < γ₂/[ψ_n^(¹/²) log ψ_n] for all n. As a consequence, we have ψ_nǁψ_nαǁǁψ_nβǁ < [(γ₁ γ₂)/(log ψ_n)] for all n, thus giving an effective proof of Littlewood's conjecture for the pair (α, β). Our proofs are elementary and use only standard results from algebraic number theory and the theory of continued fractions.
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The use of volumetry by three-dimensional ultrasound in the first trimesterCheong, Kah-bik., 張嘉碧. January 2009 (has links)
published_or_final_version / Obstetrics and Gynaecology / Master / Master of Philosophy
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Characterization of Boron Nitride Thin Films on Silicon (100) Wafer.Maranon, Walter 08 1900 (has links)
Cubic boron nitride (cBN) thin films offer attractive mechanical and electrical properties. The synthesis of cBN films have been deposited using both physical and chemical vapor deposition methods, which generate internal residual, stresses that result in delamination of the film from substrates. Boron nitride films were deposited using electron beam evaporation without bias voltage and nitrogen bombardment (to reduce stresses) were characterize using FTIR, XRD, SEM, EDS, TEM, and AFM techniques. In addition, a pin-on-disk tribological test was used to measure coefficient of friction. Results indicated that samples deposited at 400°C contained higher cubic phase of BN compared to those films deposited at room temperature. A BN film containing cubic phase deposited at 400°C for 2 hours showed 0.1 friction coefficient.
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