Effect of SPS consolidation parameters on submicron Cu and Cu–CNT composites for thermal management

Effect of SPS consolidation parameters on submicron Cu and Cu–CNT composites for thermal management

The effect of oxygen content on sub-micron sized copper and copper reinforced with CNTs was investigated using spark plasma sintering (SPS). The powders were initially annealed for 30min at 550°C with a heating rate of 5°C/min under argon. The annealed powders were then consolidated at sintering tem...

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Bibliographic Details
Published in:Powder technology Vol. 258; pp. 198 - 205
Main Authors: Sule, R., Olubambi, P.A., Sigalas, I., Asante, J.K.O., Garrett, J.C.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-05-2014
Elsevier
Subjects:
Applied sciences
Chemical engineering
Copper
Exact sciences and technology
Heat sink
Microstructure
Miscellaneous
Sintering, pelletization, granulation
Solid-solid systems
Spark plasma sintering
Spark plasma sintering
Copper
Microstructure
Heat sink
Grain size
Plasma
Vickers hardness
Heat treatment
Phase composition
Heating rate
Oxygen content
Density
Composite material
Powder
Consolidation
Sintering
Thermal conductivity
Sample conservation
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Summary:The effect of oxygen content on sub-micron sized copper and copper reinforced with CNTs was investigated using spark plasma sintering (SPS). The powders were initially annealed for 30min at 550°C with a heating rate of 5°C/min under argon. The annealed powders were then consolidated at sintering temperatures of 600°C, 650°C and 700°C with a constant pressure of 50MPa and a holding time of 5min. The density, phase composition, microstructure, Raman spectra, hardness and thermal conductivity of the resulting materials were measured. The oxygen content of pure Cu powder after heat treatment reduced from 0.54wt.% to 0.05wt.%. A relative density of 98.70%, 99.20% and 96.27% was obtained at 600°C, 650°C and 700°C respectively. The Vickers hardness values were 1.32GPa, 1.32GPa and 1.13GPa. An average grain size of about 0.5μm was obtained in sample sintered at 600°C and 650°C. The Raman spectra of the composite samples showed that the consolidation condition did not damage the CNTs during sintering. The thermal conductivity of 395±20W/m-K was measured for the pure copper sintered at 600°C. Thermal conductivity remained relatively high for all the sintered samples. [Display omitted] •Effects of annealing on densification and microhardness of Cu and Cu–CNT•Influence of consolidation parameters on copper grain size•Raman spectroscopy analysis of CNT on Cu–CNT composites.•Influence of sintering temperature on the thermal conductivity of the fully dense samples
ISSN:0032-5910
1873-328X
DOI:10.1016/j.powtec.2014.03.034