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[en] RECIPITATION PROCESSES CONTROLLED BY LATTICE AND GRAIN BOUNDARY DIFFUSION IN ALLOY 33 (FE-NI-CR-MO-N) / [pt] PROCESSOS DE PRECIPITAÇÃO INTERGRANULAR E VOLUMÉTRICA NA LIGA 33 (FE-NI-CR-MO-N)VIVIANE DELVAUX CARNEIRO 10 February 2005 (has links)
[pt] Este trabalho é uma investigação da microestrutura e
cinética dos fenômenos de precipitação que ocorrem na Liga
33 (Fe-Ni-Cr-Mo-Cu-N), sistema metálico desenvolvido pela
Krupp VDM com o intuito de suportar altas temperaturas e
ambiente corrosivo. A Liga 33 incorre precipitação
contínua e descontínua simultaneamente, como resultado do
tratamento de envelhecimento realizado numa faixa de
temperatura correspondente àquela que o material atinge
quando submetido a um processo de soldagem. A
caracterização microestrutural foi realizada por
microscopia ótica, microscopia eletrônica de varredura, e
microscopia eletrônica de transmissão, incluindo
microanálise, devido à ordem de grandeza nanométrica das
fases precipitadas. A precipitação descontínua ocasiona
uma estrutura lamelar no contorno dos grãos, resultado do
crescimento cooperativo entre as lamelas, envolvendo
átomos substitucionais (Cr, por exemplo) e intersticiais
(N). A precipitação contínua ocorre no interior dos grãos
gerando precipitados com diferentes morfologias. A
microanálise revela que os produtos gerados em ambas as
reações crescem competindo pelo Cr. Uma análise cinética-
morfológica aponta para a natureza não estacionária da
reação descontínua, que sofre gradativa diminuição de sua
taxa de transformação, até ser totalmente paralisada. / [en] This work is an investigation of the microstructure and
kinetics of the phenomena occurring inside Alloy 33 (Fe-Ni-
Cr-Mo-Cu-N), a metallic system developed by Krupp VDM to
endure high temperatures and corrosive environment. Alloy
33 incurs continuous and discontinuous precipitation
simultaneously, as a result of the aging treatment induced
in a temperature range correspondent to the one of a
welding process in the referred material. The
microstructural characterization was performed by optical
microscopy, scanning electron microscopy and transmission
electron microscopy, including microanalysis, due to the
nanometric nature of the precipitated phases.
Discontinuous precipitation produces a lamellar structure
along grain boundaries as a result of a cooperative growth
between the lamellae, involving substitucional and
interstitial atoms, Cr and N respectively. Continuous
precipitation occurs inside grains, generating
precipitates with different morphologies. Microanalysis
reveals that products of both precipitation reactions grow
competing for Cr. A kinetic-morphological analysis points
to the non-stationary characteristic of the discontinuous
precipitation, where the transformation rate diminishes
until it stops completely, as aging occurs.
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Gamma Prime Precipitation Mechanisms and Solute Partitioning in Ni-base AlloysRojhirunsakool, Tanaporn 08 1900 (has links)
Nickel-base superalloys have been emerged as materials for gas turbines used for jet propulsion and electricity generation. The strength of the superalloys depends mainly from an ordered precipitates of L12 structure, so called gamma prime (γ’) dispersed within the disorder γ matrix. The Ni-base alloys investigated in this dissertation comprise both model alloy systems based on Ni-Al-Cr and Ni-Al-Co as well as the commercial alloy Rene N5. Classical nucleation and growth mechanism dominates the γ’ precipitation process in slowed-cooled Ni-Al-Cr alloys. The effect of Al and Cr additions on γ’ precipitate size distribution as well as morphological and compositional development of γ’ precipitates were characterized by coupling transmission electron microscopy (TEM) and 3D atom probe (3DAP) techniques. Rapid quenching Ni-Al-Cr alloy experiences a non-classical precipitation mechanism. Structural evolution of the γ’ precipitates formed and subsequent isothermal annealing at 600 °C were investigated by coupling TEM and synchrotron-based high-energy x-ray diffraction (XRD). Compositional evolution of the non-classically formed γ’ precipitates was determined by 3DAP and Langer, Bar-on and Miller (LBM) method. Besides homogeneous nucleation, the mechanism of heterogeneous γ’ precipitation involving a discontinuous precipitation mechanism, as a function of temperature, was the primary focus of study in case of the Ni-Al-Co alloy. This investigation coupled SEM, SEM-EBSD, TEM and 3DAP techniques. Lastly, solute partitioning and enrichment of minor refractory elements across/at the γ/ γ’ interfaces in the commercially used single crystal Rene N5 superalloy was investigated by using an advantage of nano-scale composition investigation of 3DAP technique.
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Solute Partitioning in Elastin-like Polypeptides: A Foundation for Drug Delivery ApplicationsHelm, Eric 24 December 2015 (has links)
No description available.
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