Effect of starting powder particle size and heating rate on spark plasma sintering of Fe- Ni alloys
- Authors: Shongwe,M.B. , Ramakokovhu, M.M. , Diouf, S. , Durowoju, M.O. , Obadele, B.A. , Sule, R. , Olubambi, P.A , Sadiku, E.R.
- Date: 2016
- Subjects: Densification , Sintering , Microstructure
- Language: English
- Type: Article
- Identifier: http://hdl.handle.net/10210/123446 , uj:20792 , Citation: Shongwe,M.B. et al. 2016. Effect of starting powder particle size and heating rate on spark plasma sintering of Fe- Ni alloys.
- Description: Abstract: The effect of starting powder particle size and heating rate on spark plasma sintering of Fe-Ni alloys was investigated, with the particle powder size varying from 3 to 70 μm and heating rate from 50 to 150 °C/min. The effect of the starting powder particle size was more obvious when comparing 3-FeNi and 70-FeNi at all heating rates, with the former having better density and hardness than the latter. Sintered densities close to theoretical (≥ 99%) were achieved for a heating rate of 50°C/min for the different starting particle size powders, and decreased with increasing heating rate. The average grain size of alloys sintered at 150°C/min was ~34% smaller than those sintered at 50°C/min. The porosity content of the sintered samples increased with increasing heating for the same particle size. The shrinkage rate depends on both heating rate and particle size. At a particle size of 3 μm and a heating rate of 50oC/min, three peaks were observed indicative of the phenomena responsible for good densification. As the heating rate increases, only two peaks and one peak are observed at heating rates of 100 and 150oC/min, respectively. This suggests that, unlike high heating rates, the longer processing time at low heating rate allows the three phenomena to take place. The hardness measurement revealed a steady decrease with increasing heating rate. At a heating rate of 150°C/min the particles were well packed but no typical dimple structure of a ductile material was observed. However, for samples sintered at 50 and 100°C/min a typical dimple fracture morphology was observed.
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High temperature oxidation resistance of Ni22Cr11Al bond coat produced by spark plasma sintering as thermal barrier coatings
- Authors: Omoniyi, F.I.S. , Olubambi, P.A. , Sadiku, E.R.
- Date: 2016
- Subjects: High temperature , Oxidation , Spark plasma sintering
- Language: English
- Type: Article
- Identifier: http://hdl.handle.net/10210/214305 , uj:21264 , Citation: Omoniyi, F.I.S., Olubambi, P.A & Sadiku, E.R. 2016. High temperature oxidation resistance of Ni22Cr11Al bond coat produced by spark plasma sintering as thermal barrier coatings.
- Description: Abstract: Thermal barrier coating (TBC) system is used in both aero engines and other gas turbines offer oxidation protection to super alloy substrate component. In the present work, it shows the ability of a new fabrication technique to develop rapidly new coating composition and microstructure. The compact powder were prepared by powder metallurgy method involving powder mixing and the bond coat was synthesized through the application of spark plasma sintering (SPS) at 1100°C, 1050°C and 1100°C to produce a fully dense 94%) Ni22Cr11Al bulk samples. The influence of sintering temperature on hardness of Ni22Cr11Al done by micro vickers hardness tester was investigated. And oxidation test were carried out at 1100°C for 20 hr, 40 hr and 100 hr. The resulting coat was characterised with Optical microscopy, Scanning electron microscopy (SEM) and X-ray diffraction (XRD). Micro XRD analysis after the oxidation test revealed the formation of protective oxides and non-protective oxides.
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