| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Pickering, Ej
University of Manchester
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (37/37 displayed)
- 2024Eutectic Superalloys for Laser Powder Bed Fusion
- 2024In-Situ EBSD Study of Austenitisation in a Wire-Arc Additively Manufactured High-Strength Steelcitations
- 2024Development of novel carbon-free cobalt-free iron-based hardfacing alloys with a hard π-ferrosilicide phase
- 2023β grain refinement during solidification of Ti-6Al-4V in Wire-Arc Additive Manufacturing (WAAM)citations
- 2023Using Concentration Gradients to Examine the Effects of Al, Ga and Sn Additions on the Low-Activation VCrMnFe Systemcitations
- 2022β Grain refinement by yttrium addition in Ti-6Al-4V Wire-Arc Additive Manufacturingcitations
- 2022Fundamental Aspects of Functional Grading via Powder Hot Isostatic Pressing - Development of microstructure and diffusional processescitations
- 2021Addition of Ge to Cr–Ta–Si laves phase-based alloys
- 2021Development of a novel Ni-based multi-principal element alloy filler metal, using an alternative melting point depressantcitations
- 2021An assessment of the thermal stability of refractory high entropy superalloys
- 2021The Potential for Grain Refinement of Wire-Arc Additive Manufactured (WAAM) Ti-6Al-4V by ZrN and TiN Inoculationcitations
- 2021Microstructure transition gradients in titanium dissimilar alloy (Ti-5Al-5V-5Mo-3Cr/Ti-6Al-4V) tailored wire-arc additively manufactured componentscitations
- 2021An investigation of the miscibility gap controlling phase formation in refractory metal high entropy superalloys via the Ti-Nb-Zr constituent system
- 2020Novel reduced-activation TiVCrFe based high entropy alloyscitations
- 2020The effect of Al on the formation and stability of a bcc - B2 microstructure in a refractory metal high entropy superalloy system
- 2020Elucidating the microstructural development of refractory metal high entropy superalloys via the Ti–Ta–Zr constituent system
- 2020Developing alloy compositions for future high temperature disk rotorscitations
- 2020Observation of a refractory metal matrix containing Zr-Ti- rich precipitates in a Mo0.5NbTa0.5TiZr high entropy alloycitations
- 2020Observation of a refractory metal matrix containing Zr-Ti-rich precipitates in a Mo 0.5 NbTa 0.5 TiZr high entropy alloy
- 2019On the design and feasibility of tantalum-base superalloyscitations
- 2019Measurement and Prediction of Phase Transformation Kinetics in a Nuclear Steel During Rapid Thermal Cyclescitations
- 2018On the effect of Nb on the microstructure and properties of next generation polycrystalline powder metallurgy Ni-based superalloyscitations
- 2018On the influence of Mn on the phase stability of the CrMn x FeCoNi high entropy alloys
- 2018The effect of zirconium on the omega phase in Ti-24Nb-[0–8]Zr (at.%) alloys
- 2018Observation of a new B2 structured phase in Ti-15Mo (wt%)citations
- 2017An assessment of the lattice strain in the CrMnFeCoNi high-entropy alloy
- 2017The effect of heat treatment on precipitation in the Cu-Ni-Al alloy Hiduron® 130citations
- 2017Synchrotron and neural network analysis of the influence of composition and heat treatment on the rolling contact fatigue of hypereutectoid pearlitic steelscitations
- 2017Degradation of metallic materials studied by correlative tomographycitations
- 2017Gamma-gamma prime-gamma double prime dual-superlattice superalloyscitations
- 2016Precipitation in the equiatomic high-entropy alloy CrMnFeCoNi
- 2016The microstructure and hardness of Ni-Co-Al-Ti-Cr quinary alloyscitations
- 2016Soft novel form of white-etching matter and ductile failure of carbide-free bainitic steels under rolling contact stressescitations
- 2016High-entropy alloys: a critical assessment of their founding principles and future prospectscitations
- 2015A Comprehensive Case Study of Macrosegregation in a Steel Ingot
- 2015Fine-scale precipitation in the high-entropy alloy Al 0.5 CrFeCoNiCu
- 2014Degradation of nanostructured bainitic steel under rolling contact fatigue
Places of action
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article
Microstructure transition gradients in titanium dissimilar alloy (Ti-5Al-5V-5Mo-3Cr/Ti-6Al-4V) tailored wire-arc additively manufactured components
Abstract
The nature of the chemical mixing and microstructure gradients that occur across the interface transition, when manufacturing tailored components with the two high-performance dissimilar titanium alloys (Ti6Al-4V (Ti-64) and Ti-5Al-5V-5Mo-3Cr (Ti-5553)) by the wire-arc additive manufacturing process, are reported. It has been shown that a relatively long-range chemical gradient occurs during the transition between layers produced with the two different titanium alloys, due to convective mixing in the melt pool between the substrate layers and new alloy wire. This resulted in a stepwise exponential decay composition profile normal to the layers, the width of which can be described by a simple dilution law, with steep local composition gradients seen within the boundary layers at the fusion boundary of each individual layer. The alloy-alloy composition gradients had little effect on the β-grain structure. However, they strongly influenced the transformation microstructure, due to their effect on the parent β-phase stability and the β → α transformation kinetics and reaction sequence. The microstructure gradient seen on transitioning from Ti-64 → Ti-5553 was significantly more abrupt, compared to when depositing the two alloys in the reverse order. Under WAAM thermal conditions, Ti-64 appears to be more sensitive to the effect of adding β-stabilising elements than when Ti-5553 is diluted by Ti-64, because at high cooling rates, stabilisation of the β phase readily suppresses α nucleation when cooling through the β transus, and the normal Ti-64 lamellar transformation microstructure is abruptly replaced by finer scale α laths generated by precipitation during subsequent reheating cycles.