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The effect of alloy composition on the deformation behavior and the tensile properties of Al-3Li-X alloysKujore, Adesola Oludotun 05 1900 (has links)
No description available.
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The role of alloy composition and cooling rate from the melt on the dispersoid distribution in AA 6013Conte-Matos, Augusto 05 1900 (has links)
No description available.
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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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In-situ scanning electron microscopy studies on the uniaxial tensile deformation mechanisms in Aluminium alloy 5083.MotsI, Glenda Tsholofelo. January 2014 (has links)
M. Tech. Metallurgical Engineering. / Aims to study tensile deformation mechanisms of aluminium alloy 5083 using in situ SEM techniques. The objectives to achieve this aim are: to investigate the effect of strain rate on mechanical properties ; investigating anisotropy mechanical properties at varying strain rates ; investigating microstructure anisotropy behaviour at varying strain rates and to investigate the influence of intermetallic particles during tensile deformation.
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