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Tribocorrosion mechanisms in laser deposited titanium-based smart composite coatingsObadele, Babatunde Abiodun January 2014 (has links)
D. Tech. Chemical, Metallurgical and Materials Engineering. / Aims to produce and improve the tribocorrosion property of Ti6Al4V by means of laser surface cladding with Ni and ZrO2. The results of this study would be useful for the design of high performance components for chemical and oil industry and potential applications in other engineering fields. The aim would be achieved through the following objectives: 1. Synthesize and characterise Ti, Ti-Ni and Ti-Ni-ZrO2 admixed powders. 2. Explore the feasibility of laser surface treatment of Ti6Al4V with Ti, Ti-Ni and Ti-Ni-ZrO2. 3. Investigate possible metallurgical interactions and phenomenon during and after laser surface cladding of the composite. 4. Evaluate the microstructural and mechanical properties of Ti based composites in terms of hardness. 5. Analyze the interaction between wear and corrosion wear as well as tribocorrosion resistance of the alloys and composites after laser surface cladding in 3.5 % NaCl and 1M H2SO4 environments.
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Estabilidade e metaestabilidade de fases em ligas Ti-Nb / Stability and metastability of phases in Ti-Nb alloysAleixo, Giorgia Taiacol 16 February 2006 (has links)
Orientadores: Rubens Caram Junior, Conrado Ramos Moreira Afonso / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-08-06T17:14:04Z (GMT). No. of bitstreams: 1
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Previous issue date: 2006 / Resumo: Ligas de titânio formam a classe mais versátil de materiais metálicos utilizados para aplicações biomédicas. As ligas de Ti tipo ß usadas em dispositivos ortopédicos envolve, além de excelentes propriedades como baixa densidade, elevada resistência mecânica e excepcional resistência à corrosão, a biocompatibilidade com elementos de liga, tais como Nb, Ta, Zr e Mo. O objetivo deste trabalho foi analisar a estabilidade e metaestabilidade de fases em ligas tipo ß no sistema Ti-Nb através da verificação da influência do teor de nióbio sob diversas condições de tratamento térmico. Para tanto variou-se a adição de Nb de 5% a 30% em peso na liga, obtendo amostras que foram submetidas a condições distintas de resfriamento a partir do campo ß. Amostras obtidas foram caracterizadas no tocante à microestrutura via microscopia ótica, eletrônica de varredura e de transmissão, difração de raios-X, enquanto o comportamento mecânico foi preliminarmente avaliado através de ensaios de dureza Vickers e de medidas de módulo de elasticidade através de técnicas acústicas. Os resultados obtidos indicam que baixas taxas de resfriamento conduzem à microestrutura de equilíbrio (a+ß) enquanto que altas taxas de resfriamento levaram à formação de estruturas metaestáveis. À medida que o teor de Nb foi incrementado e sob altas taxas de resfriamento, obteve-se, respectivamente, martensita a¿ (hexagonal compacta), martensita a¿ (ortorrômbica), fase ? (trigonal) e finalmente, fase ß metaestável. Em relação ao módulo de elasticidade, observou-se que esse parâmetro decresce entre 0 e 15% de Nb e após este último valor, tal constante elástica se eleva como resultado da precipitação de fase ? bem como da possível alteração de dimensões da estrutura cristalina. As ligas Ti-Nb apresentaram uma variabilidade de microestruturas e propriedades que dependem fortemente da composição e condição de resfriamento / Abstract: Titanium alloys form one of the most versatile classes of metallic materials used for biomedical applications. ß Ti alloys for orthopaedic devices involves, besides excellent properties like low density, high mechanical strength and good corrosion resistance, great biocompatibility with alloying elements, such as Nb, Ta, Zr and Mo. The objective of this work was to analyze the stability and metastability of phases in ß Ti-Nb alloys through the evaluation of the influence of percentage of Nb obtained in different heat treatment conditions. In this way, Nb addition was varied from 5 to 30wt% in Ti-Nb system. Samples were obtained and microstructural characterization was made through optical microscopy, scanning and transmission electron microscopy and X-ray diffraction, while mechanical behavior was primarily evaluated by Vickers hardness and elasticity modulus through acoustic techniques. The results obtained indicate that lower cooling rates resulted in the equilibrium microstructures (a+ß), otherwise higher cooling rates led to formation of metastable structures. As the Nb content was increased and under greater cooling rates, it was obtained, respectively, martensite a¿ (hexagonal closed packed), martensite a¿ (orthorhombic), ? phase (trigonal) and finally, metastable ß phase. Regarding modulus of elasticity it was observed that it decreases as the %Nb increases up to 15% and beyond this percentage the modulus increases due the precipitation of ? phase as well as possible variation of crystalline structure dimensions. Ti-Nb alloys presented a great variety of combinations between microstructures and properties that strongly depends on composition and cooling conditions / Mestrado / Materiais e Processos de Fabricação / Mestre em Engenharia Mecânica
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Obtenção, caracterização microestrutural e mecanica de ligas Ti-Nb-Sn aplicadas em implantes ortopedicos / Obtaining and microstructualand mechanical characterization of Ti-Nb-Sn alloys applied as biomaterialAleixo, Giorgia Taiacol 11 December 2009 (has links)
Orientadores: Rubens Caram Junior, Conrado Ramos Moreira Afonso / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica / Made available in DSpace on 2018-08-15T14:37:29Z (GMT). No. of bitstreams: 1
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Previous issue date: 2009 / Resumo: Este trabalho trata da preparação, processamento e caracterização microestrutral e mecânica de ligas Ti-Nb-Sn tipo ß visando a fabricação de dispositivos ortopédicos para implante. Amostras contendo Ti com teores de 25, 30 e 35% em peso de Nb e 2, 4 e 8% em peso de Sn foram preparadas por fusão a arco, homogeneizadas a 1000ºC/8 h e deformadas plasticamente por forjamento rotativo. Tais amostras foram submetidas a ensaios de resfriamento contínuo objetivando avaliar condições de obtenção de fases metaestáveis. Em seguida, amostras aquecidas a 1000ºC foram resfriadas rapidamente e submetidas a ensaios de calorimetria diferencial de varredura e de raios-X com aquecimento até médias temperaturas, o que permitiu avaliar a decomposição martensítica. Em seguida, amostras aquecidas no campo ß foram resfriadas ao ar, o que resultou em microestruturas com a fase a precipitada na matriz ß. Tais amostras foram caracterizadas no tocante à microestrutura via microscopia ótica, eletrônica de varredura e de transmissão e difração de raios X, enquanto que o comportamento mecânico foi avaliado por meio de testes de dureza Vickers, de medidas de módulo de elasticidade usando técnicas acústicas, ensaios de tração e ensaios de fadiga. Os resultados obtidos indicam que a decomposição da martensita resulta nas fases ß, ? e finalmente, a e também, que a fase ? atua como substrato na nucleação da fase a. O comportamento mecânico das amostras depende diretamente das fases presentes na microestrutura, bem como de suas frações volumétricas. Constatou-se também que o módulo de elasticidade, a dureza e o limite de resistência à tração de amostras resfriadas ao ar exibem valores superiores aos valores obtidos com as amostras resfriadas rapidamente, enquanto que a ductilidade se reduz. Finalmente, observou-se que o limite de fadiga de amostras resfriadas ao ar é máximo para baixos teores de Nb e se reduz com a adição de Sn / Abstract: This work deals with preparation, processing and microstructural and mechanical characterization of ß type Ti-Nb-Sn alloys aiming the manufacturing of orthopedic devices for implants. Ti samples containing Nb at levels of 25, 30 and 35 wt % and Sn at levels of 2, 4 and 8 wt % were prepared by arc melting, homogenized at 1000ºC/8 h and plastically deformed by swaging. These samples were submitted to continuous cooling experiments to evaluate conditions for obtaining metastable phase. Then, samples heated to 1000ºC were rapidly cooled and analyzed by using differential scanning calorimetry and X-ray diffraction at medium temperatures, which allowed the evaluation of martensite decomposition. Next, samples in the ß field were air-cooled, which resulted in microstructures with a phase precipitated into ß matrix. These samples were characterized concerning the microstructure by applying optical, scanning electron and transmission electron microscopies and X-ray diffraction, while the mechanical behavior was evaluated by Vickers hardness test, elastic modulus measurement using acoustic techniques, tensile and fatigue tests. The results obtained indicate that martensite decomposition results in ß, ? and finally a phases. It was also found that ? phase acts as substrate for a phase nucleation. The sample mechanical behavior directly depends on the phases present in the microstructure, as well as their volumetric fraction. It was also observed that elastic modulus, hardness and tensile strength of air cooled samples show higher values than those of rapidly quenched samples, while ductility decreases. Finally, it was observed that fatigue resistance of air cooled samples is higher for low Nb content alloys, however, it decreases with Sn addition / Doutorado / Materiais e Processos de Fabricação / Doutor em Engenharia Mecânica
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Preparation of curved root canals with different nickel-titanium rotary systems: three-dimensional comparisonusing micro-computed tomographyChiu, Mei-ling, Bonnie., 趙美玲. January 2003 (has links)
published_or_final_version / Dentistry / Master / Master of Dental Surgery
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Anti-bacteria plasma-treated metallic surface for orthopaedics useLeung, Kit-ying, 梁潔瑩 January 2008 (has links)
published_or_final_version / Orthopaedics and Traumatology / Master / Master of Philosophy
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Development of PGMs-modified TiAl-based alloys and their properties / Development of PGMs-modified TiAl-based alloy coatings via mechanical alloying and thermal sprayMwamba, Ilunga Alain January 2017 (has links)
A thesis submitted to the Faculty of Engineering and the Built Environment, University of the
Witwatersrand, in fulfillment of the requirements for the degree of Doctor of Philosophy,
Johannesburg, August 2017 / Titanium aluminides Ti3Al (α2), γ-TiAl and TiAl3 have received much attention for potential
applications where light weight for energy saving, room temperature corrosion resistance in aqueous
solutions, high-temperature oxidation resistance, or where combinations of the above are needed.
Gamma-TiAl of composition Ti-47.5 at.% Al with additions of platinum group metals (PGMs: Pt,
Pd, Ru and Ir) was investigated for microstructure, hardness, room temperature aqueous corrosion,
high-temperature oxidation resistance, mechanical alloying and consolidation by spark plasma
sintering, and coating on titanium Grade 2 and Ti-6Al-4V substrates. Gamma-TiAl of Ti-47.5 at.%
Al produced by melting and casting gave a microstructure consisting of γ grains and lamellar grains
with alternating of α2 and γ phase lamellae. Additions of 0.2, 1.0, 1.5, and 2.0 at.% PGMs introduced
new phases of high PGM contents. The γ and lamellar phases were still present.
The additions of PGMs significantly improved the aqueous corrosion properties at room
temperature, by improving the pitting corrosion resistance of the γ-TiAl alloy by modifying its
hydrogen evolution of the cathodic reaction. The presence of PGMs also influenced the oxidation
behaviour of γ-TiAl at 950°by forming the Z-phase which stabilized a continuous protective Al2O3
phase. However, Ti-47.5 at.% Al, being a two-phase alloy (α2+γ), PGMs could not sustain a stable
Z-phase, as it transformed into an oxygen supersaturated Ti3Al, which subsequently led to the
formation of TiO2+Al2O3, a non-protective oxide mixture. The optimal PGM addition to γ-TiAl was
0.5 at.%, with iridium giving the best room temperature corrosion and high-temperature oxidation
resistance.
Mechanical alloying of Ti and Al pure powders with PGM additions gave powders where α2 and γ
were only identified after heat treatment. Consolidation of the mechanically alloyed powders by spark
plasma sintering gave different microstructures from the cast alloys, with continuous α2 and γ phases
and evenly distributed nanometer-sized alumina, and much higher hardnesses.
Cold spraying the mechanically alloyed powders on to titanium Grade 2 and Ti-6Al-4V substrates
gave coatings of irregular thickness, dense near the substrates with porosity at the top, giving poor
oxidation protection. / CK2018
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Phase reactions of the alloy TIMETAL 125 and its thermomechanical treatmentsMutava, Tapiwa David January 2017 (has links)
A thesis submitted to the Faculty of Engineering, University of the Witwatersrand, Johannesburg, in fulfilment of the requirements for the degree of Doctor of Philosophy (Metallurgical Engineering)
2017 / The alloy Ti-2.7Al-5.7Fe-6Mo-6V (wt%), commercially known as Timetal 125, is used as a high strength fastener in aerostructure assemblies. Very little information is available on its properties and processing, and this study investigated its consolidation from low cost elemental powders, to achieve the minimum mechanical properties for use as a high strength fastener. Reactions during alloying and its beta transus were investigated by differential thermal analysis. The α+β phase region was established to lie between 590oC and 800oC by thermal analysis, metallography and XRD. The alloy was consolidated to ~99% theoretical density by semi-centrifugal casting, and spark plasma sintering of the blended powders. Various heat treatments were undertaken, and the microstructures were evaluated by optical and scanning electron microscopy. Tensile properties, hardness and density were measured after each heat treatment, to establish the optimal combination of mechanical properties.
The experimental Timetal 125 style alloy was found to be a metastable beta titanium alloy, which could be strengthened by ageing. It had a microstructure consisting of alpha grains with fine beta precipitates in the as-cast condition, while the sintered samples had acicular precipitates and larger grains, due to the unusually long period that was required to sinter the samples. The ultimate tensile strength was >1500MPa, and elongation was ~3% in the as-cast condition, thus failing to conform to the Airbus EN6116 standard’s specification for ultimate tensile strength and elongation for a high strength fastener in the as-cast or sintered condition. After annealing the castings at 900oC for 1 hour, the ultimate tensile strength decreased to ~760MPa, while elongation increased to ~15%, which still did not conform to the Airbus standard, due to the low strength. The alloy was solution-annealed at 900oC, followed by water quenching to retain a fully βTi microstructure. The minimum properties for the Airbus standard were achieved after ageing between 500oC and 590oC for 1 hour, with an ultimate tensile strength of ~1285MPa, and elongation of ~6.3%.
The strengthening depended on the amount and morphology of αTi precipitates from ageing. The αTi/βTi ratio increased with increasing temperature and holding time (shown by XRD), up to 590oC where the precipitates progressively transformed to βTi. Extending isothermal holding time coarsened the precipitates, which was deleterious to strength. There was generally a positive correlation between mean grain size and temperature or holding time, although competing transformations suppressed grain growth, particularly after heat treatment close to transformation temperatures. Although grain size had an effect on the strength of the Timetal
125 style alloy, the main mechanism was precipitation hardening by the secondary αTi. Extended ageing resulted in the formation of allotriomorphic alpha titanium, and a corresponding decrease in the ultimate tensile strength.
It was not possible to subject the sintered samples to tensile testing, due to their shape. However, the sintered samples were less porous and had higher Vickers’ values than the castings, suggesting they had similar, if not higher tensile strengths. The acicular precipitates in the sintered samples were possibly martensite or omega titanium (ωTi, Pearson symbol hP3 and space group P6/mmm) although they were too fine to be detected by X-ray diffraction and too fine analyse separately by energy dispersive X-ray spectrometry. / MT 2017
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Optimizing the surface integrity of machined Ti-6A-4V using advanced carbide inserts and minimum quantity lubricationOfem, Nweoyi Lekam January 2016 (has links)
A thesis submitted to the Faculty of Engineering and the Built Environment, University of the Witwatersrand, Johannesburg, in fulfilment of the requirements for the degree of Masters of Science in Engineering, 2016 / This research is focused on optimizing the surface integrity of Ti-6Al-4V using advanced carbide inserts and minimum quantity lubrication (MQL). Experiments were designed to machine twenty Ti-6Al-4V blocks under dry and MQL lubricating conditions using innovative cemented carbide inserts produced by Liquid Phase Sintering (LPS) and Spark Plasma Sintering (SPS). The cutting speed, feed rate, and depth of cut, were considered as machining parameters, while the cutting force, temperature, tool wear, surface roughness and residual stress were considered as performance characteristics. The results obtained for surface roughness and residual stress measurements were used to analyze the surface integrity of the machined Ti-6Al-4V samples. The influence of sintering techniques and milling parameters on performance characteristics and surface integrity were investigated from experimental results obtained. Discrepancy in behavioral trends with respect to lubricating conditions was also investigated. The analyses of milling results showed that cutting speed played a major role in the optimization of surface integrity of the Ti-6Al-4V work pieces followed by the depth of cut. The results also showed that the LPS inserts performed better than the SPS inserts due to their better mechanical properties (higher fracture toughness (KIC) and transverse rupture strength). The application of MQL was also observed to significantly reduce milling temperatures resulting in better surface integrity. However, an optimized surface integrity of the Ti-6Al-4V samples was achieved during MQL milling with the 10Co-L insert at a low finishing speed of 75m/minute and a reduced depth of cut of 0.5mm.
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Effect of Friction-stir Processing on the Wear Behavior of Titanium (Ti-1Al-8V-5Fe) and Stainless Steel (A-286) AlloysTinubu, Olusegun Olukunle 05 1900 (has links)
The effect of friction stir processing (FSP) on the mechanical wear behavior was investigated for Ti-1Al-8V-5Fe (Ti-185) and stainless steel (Incoloy® A-286) alloys. The Ti-185 and A-286 alloys were tested in different processing conditions, including as rolled (AR), AR+FSP, and AR+FSP+aged. A high frequency reciprocating rig was used to simulate fretting-type wear of these alloys at room temperature. The Vickers micro-hardness and wear rates were calculated and compared for each processing condition. It was determined that along with increasing hardness in the stir zones, FSP resulted in improved wear resistance for both alloys. Specifically, wear rates in the stir zones were reduced to lowest values of 1.6 x 10-5 and 5.8 x 10-7 mm3/N·m for the AR+FSP+aged Ti-185 and A-286 alloys, respectively, despite lower hardness for A-286 alloy. Mechanistic studies were conducted to determine the reason behind these improvements in wear resistance and the effect of FSP on the microstructural evolution during wear. For the Ti-185 alloy, x-ray diffraction revealed that there was a phase transformation from β-Ti (AR+FSP) to α-Ti (AR+FSP+aged). This phase decomposition resulted in the harder and stiffer Ti phase responsible for lowering of wear rate in Ti-185. While x-ray diffraction confirmed the A-286 alloy retains its austenitic structure for all conditions, scanning electron microscopy revealed completely different wear track morphology structures. There was increased coarse abrasion (galling) with the AR+aged A-286 alloy compared to the much finer-scale abrasion with the AR+FSP+aged alloy, which was responsible for smaller and less abrasive wear debris, and hence lower wear rate. Furthermore, cross-sectional focused ion beam microscopy studies inside the stir zone of AR+FSP+aged A-286 alloy determined that a) increased micro-hardness was due to FSP-induced microscopic grain refinement, and b) the corresponding wear rate decrease was due to even finer wear-induced grain refinement. With both effects combined, the level of damage and surface fatigue wear was suppressed resulting in lowering of the wear rate. In contrast, the absence of FSP-induced grain refinement in the AR+aged A-286 alloy resulted in lower hardness and increasing wear rate. In addition, micro-Raman spectroscopy inside the stir wear zone determined that the wear debris contained metal oxides of Fe3O4, Cr2O3, and NiO, but were a consequence and not the cause of low wear. Overall, FSP of titanium and stainless steel alloys resulted in lowering of wear rates suggesting it is a viable surface engineering technique to target and mitigate site-specific wear.
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Characterization of Ti-6Al-4V Produced Via Electron Beam Additive ManufacturingHayes, Brian J. 12 1900 (has links)
In recent years, additive manufacturing (AM) has become an increasingly promising method used for the production of structural metallic components. There are a number of reasons why AM methods are attractive, including the ability to produce complex geometries into a near-net shape and the rapid transition from design to production. Ti-6Al-4V is a titanium alloy frequently used in the aerospace industry which is receiving considerable attention as a good candidate for processing via electron beam additive manufacturing (EBAM). The Sciaky EBAM method combines a high-powered electron beam, weld-wire feedstock, and a large build chamber, enabling the production of large structural components. In order to gain wide acceptance of EBAM of Ti-6Al-4V as a viable manufacturing method, it is important to understand broadly the microstructural features that are present in large-scale depositions, including specifically: the morphology, distribution and texture of the phases present. To achieve such an understanding, stereological methods were used to populate a database quantifying key microstructural features in Ti-6Al-4V including volume fraction of phases, a lath width, colony scale factor, and volume fraction of basket weave type microstructure. Microstructural features unique to AM, such as elongated grains and banded structures, were also characterized. Hardness and tensile testing were conducted and the results were related to the microstructural morphology and sample orientation. Lastly, fractured surfaces and defects were investigated. The results of these activities provide insight into the process-structure-properties relationships found in EBAM processed Ti-6Al-4V.
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