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31	Influence of temperature and pH on corrosion resistance of Ni–Cr and Co–Cr dental alloys on oral environment Saleh, Tbrah Nuoh Khalifa January 2015 (has links) Thesis (MTech (Biomedical Technology))--Cape Peninsula University of Technology, 2015. / Dental alloys are widely used in direct contact with oral tissue. In recent years after the price of gold significantly increased, cheaper dental materials were generally considered in the market particularly dental alloys such as cobalt-chromium (Co–Cr), nickel-chromium (Ni–Cr) and titanium alloys. Cobalt– chromium alloys for example, are used in prosthetic for the fabrication of removable partial dentures and also for the fabrication of some fixed prosthetic appliances, due to its excellent properties such as biocompatibility, good mechanical behavior and corrosion resistant. In this work, the corrosion behavior of three different dental alloys, namely PD CASTA H, CERACAST NB Beryllium Free and PD 2000 alloys were studied and tested in Ringers solution (artificial saliva) at different pH values and temperature. The dental alloys were immersed in the Ringers solution for 14 days. The microstructure characterization and composition of selected alloys were done before and after 14 days of corrosion test on artificial saliva, using scanning electron microscopy (SEM). The surface roughness of the alloys was investigated by atomic force microscopy (AFM). The EDS, XRD, and TOF–SIMS were also used in the study. Electrochemical measurement on dental alloys was performed using cyclic voltammetry (CV). A saturated calomel electrode (SCE) was used as reference electrode, platinum was used as counter-electrode and Ni–Cr and Co–Cr alloys were used as working electrode. The polarization curves were plotted in the potential range of -1000 mV/SCE to +1000 mV/SCE at scanning rate of 0.2 mVss-1. It has been shown in the present study that the corrosion behavior of PD CASTA H and PD 2000 alloys, containing Co and a high Cr content, displays the best corrosion resistance compared to CERACAST NB alloy. The influence in the temperature and pH of the solution had effects on the properties of dental alloys. The electrochemical behavior of dental alloys were studied to provide a comprehensive examination of various biomedical materials used in dental application. However, the surface roughness and the surface morphology of the alloys are very important in dental study and application. Dental metallurgy Dental materials Cobalt alloys Biomedical materials
32	Transformacoes de fase e propriedades da liga FECO-2V COUTO, ANTONIO A. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:36:29Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:26Z (GMT). No. of bitstreams: 1 03869.pdf: 1530426 bytes, checksum: 572e7a2dbb3cf5d7e1b444b448a01e81 (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energetica e Nucleares IPEN/CNEN-SP cobalt alloys phase transformations microhardness iron alloys phase transformations microhardness
33	Estudo do processo de preparacao e caracterizacao de ligas magneticas de samario-cobalto obtidas por reducao-difusao calciotermica TAKIISHI, HIDETOSHI 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:37:17Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:09:08Z (GMT). No. of bitstreams: 1 02043.pdf: 5558929 bytes, checksum: ab3263582fdb04b85c3f8792873017c1 (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP cobalt alloys reduction diffusion samarium alloys reduction diffusion
34	Diffusion in Cu-Co alloys and its role in phase transformations Bruni, F. J. January 1970 (has links) No description available.
35	Thermoelectric power of Co-Zr and Fe-Zr amorphous alloys From, Milton January 1984 (has links) No description available. Thermoelectricity. Alloys -- Thermal properties. Iron alloys. Zirconium alloys. Cobalt alloys.
36	Synthesis and application of carbene complexes with heteroaromatic substituents / Crause, Chantelle. January 2004 (has links) Thesis (Ph.D.(Chemistry))--University of Pretoria, 2004. / Includes summary. Also available online.
37	An electron microscopy study of phase transformations and room-temperature strengthening mechanisms in a Co-Cr-Mo-C alloy. Rajan, Krishna January 1978 (has links) Thesis. 1978. Sc.D.--Massachusetts Institute of Technology. Dept. of Materials Science and Engineering. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND SCIENCE. / Vita. / Includes bibliographical references. / Sc.D. Materials Science and Engineering Cobalt alloys Twinning (Crystallography) Dislocations in metals
38	Comparative Coarsening Kinetics of Gamma Prime Precipitates in Nickel and Cobalt Base Superalloys Meher, Subhashish 08 1900 (has links) The increasing technological need to push service conditions of structural materials to higher temperatures has motivated the development of several alloy systems. Among them, superalloys are an excellent candidate for high temperature applications because of their ability to form coherent ordered precipitates, which enable the retention of high strength close to their melting temperature. The accelerated kinetics of solute diffusion, with or without an added component of mechanical stress, leads to coarsening of the precipitates, and results in microstructural degradation, limiting the durability of the materials. Hence, the coarsening of precipitates has been a classical research problem for these alloys in service. The prolonged hunt for an alternative of nickel base superalloys with superior traits has gained hope after the recent discovery of Co-Al-W based alloys, which readily form high temperature g precipitates, similar to Ni base superalloys. In the present study, coarsening behavior of g precipitates in Co-10Al-10W (at. %) has been carried out at 800°C and 900°C. This study has, for the first time, obtained critical coarsening parameters in cobalt-base alloys. Apart from this, it has incorporated atomic scale compositional information across the g/g interfaces into classical Cahn-Hilliard model for a better model of coarsening kinetics. The coarsening study of g precipitates in Ni-14Al-7 Cr (at. %) has shown the importance of temporal evolution of the compositional width of the g/g interfaces to the coarsening kinetics of g precipitates. This study has introduced a novel, reproducible characterization method of crystallographic study of ordered phase by coupling of orientation microscopy with atom probe tomography (APT). Along with the detailed analysis of field evaporation behaviors of Ni and Co superalloys in APT, the present study determines the site occupancy of various solutes within ordered g precipitates in both Ni and Co superalloys. This study has explained the role of structural and compositional gradients across the precipitates (g)/matrix (g) interfaces on the coarsening behavior of coherent precipitates in both Ni and Co-base superalloys. The observation of two interfacial widths, one corresponding to a structural order-disorder transition, and the other to the compositional transition across the interface, raises fundamental questions regarding the definition of the interfacial width in such systems. The comparative interface analysis in Co and Ni superalloy shows significant differences, which gives insights to the coarsening behaviors of g precipitates in these alloys. Hence, the principal goal of this work is to compare and contrast the Co and Ni superalloys and also, to accommodate atomic scale information related to transitions across interfaces to coarsening models for a better practical applicability of coarsening laws to various alloys. superalloys atom probe tomography coarsening Heat resistant alloys. Precipitation hardening. Nickel alloys. Cobalt alloys.
39	Comportamento tribológico de três superligas de cobalto em ensaios de microabrasão. / Tribological behavior in microabrasion of three cobalt-based superalloys. Marques, Flávio Parreiras 14 June 2017 (has links) As superligas à base de cobalto são bem conhecidas por sua excelente resistência ao desgaste. Muitas pesquisas reportadas na literatura abordam o comportamento do desgaste destas ligas, seja no desgaste por deslizamento, erosivo ou abrasivo. Não obstante, o desgaste microabrasivo destas ligas não tem sido muito investigado, apesar dos danos causados por este tipo de solicitação. O comportamento do desgaste microabrasivo de três superligas à base de cobalto: a) 48% Co, 29 %Cr, 19 % Fe; b) uma liga com composição química próxima à da liga comercial Tribaloy T400 (Co 56 %, Cr 8.5%, Mo 29% Si 3.3 %) e c) uma liga com composição próxima à da liga comercial Stellite 6 (Co 64%, Cr 24 %, W 4.2 %, C 2,3%) foram investigadas. Os ensaios de microabrasão foram conduzidos com três abrasivos SiO2, Al2O3, e SiC em suspensão em água destilada, com concentração de 0,1 g/cm3. A carga aplicada foi de 0,3 N, a velocidade angular 20 rpm e a distância total de deslizamento, 48 metros. A análise das superfícies desgastadas por microscopia óptica, eletrônica de varredura e por perfilometria de contato mostraram que o tamanho, forma e dureza dos abrasivos podem influenciar significativamente os coeficientes de desgaste. Os ensaios conduzidos com partículas abrasivas de SiC e Al2O3 apresentaram maiores coeficientes de desgaste que os conduzidos com partículas de SiO2. A Liga Co-Cr-Fe mostrou os maiores coeficientes de desgaste quando comparada com as demais ligas, devido à baixa fração volumétrica de partículas de segunda fase, duras, precipitadas em sua microestrutura. Durante os ensaios, as três ligas, ensaiadas com os três diferentes abrasivos, apresentaram coeficientes de desgaste crescentes com o aumento da dureza do abrasivo; observou-se uma variação linear dos coeficientes de desgaste com a razão entre a dureza do abrasivo (Ha) e a dureza composta da liga (Hs), com R2 = 0.74. O micromecanismo dominante em todos os ensaios foi o desgaste abrasivo a dois corpos (grooving wear). A liga com composição próxima à da liga comercial Tribaloy T400, contendo fases de Laves dispersas em sua microestrutura, apresentou uma transição de micromecanismo de desgaste dúctil para frágil, quando submetida a ensaios com partículas abrasivas de Al2O3. Assim sendo, o volume de material removido nesta liga foi ligeiramente maior que o observado no ensaio com partículas de SiC. Na liga contendo baixa fração volumétrica de partículas de segunda fase, com matriz constituída por Co (CFC), observou-se uma camada subsuperficial nanocristalina de aproximadamente 1 µm de espessura, severamente deformada, imediatamente abaixo da superfície desgastada. Concluiu-se que o desgaste microabrasivo induziu a recristalização a frio do material encruado, com formação de grãos equiaxiais de dimensões nanométricas. / Cobalt alloys are well known for their excellent wear resistance. Many investigations are reported in literature related to the behavior of erosive, abrasive or sliding wear of these alloys. Nevertheless, the micro-abrasive wear of these alloys has not been thoroughly investigated, despite the damage caused by this type of wear. The microabrasive wear behavior of three cobalt alloys: a) 48 wt.% Co, 29 wt.% Cr, 19 wt.% Fe; b) an alloy with chemical composition close to Tribaloy T400 (56 wt.% Co, 8.5 wt.% Cr, 29% wt. Mo, 3.3 wt. %Si) and c) an alloy with chemical composition close to Stellite 6 (64wt.% Co 24 wt.% Cr, 4.2 wt.% W, 2,3 wt.% C were investigated. The tests were carried out using three 0,1 g/cm3 slurries composed by SiO2, Al2O3, and SiC particles, in suspension in distilled water. The applied load was 0.3 N, the rotational speed 20 rpm and the total sliding distance 48 m. Analysis of the worn surfaces of the tested alloys by Optical Microscopy, Scanning Electron Microscopy and Contact Stylus Profilometry showed that abrasive size, shape and hardness could significantly influence the wear coefficients. The tests carried out with SiC and Al2O3 slurries resulted in greater wear rates than those carried out in SiO2 slurry. Stellite 250, showed the greatest wear coefficient, compared to the two other experimental alloys, due to a very low volume fraction of hard second phase particles in the microstructure. Wear coefficients decreased with increasing abrasive particles hardness. An approximate linear correlation with the ratio between the hardness of the abrasives (Ha) and the compound hardness of the alloys (Ha) with a correlation factor R2= 0.74. The dominant wear micromechanism observed in all tests was two-body abrasion (grooving wear). The modified T400 alloy, containing Laves phase showed a transition from ductile to brittle wear mechanisms when testing with alumina slurries. The worn volume was slightly greater than the one observed with SiC. A severely deformed nanocrystalline layer was identified, immediately below the worn surface. It was concluded that cold recrystallization of the work-hardened material occurred, with the formation of nano sized equiaxed grains. Abrasão Cobalt alloys Cobalto Ligas metálicas Micro-scale abrasion Nanocrystalline Recristalização Recrystallization Wear mechanism Wear resistance
40	The influence of chemical composition and heat treatment on microstructure and mechanical/tribological properties of cobalt-based Tribaloy alloys / Xu, Wei. January 1900 (has links) Thesis (M.App.Sc.) - Carleton University, 2005. / Includes bibliographical references (p. 57-63). Also available in electronic format on the Internet.

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