Title of article
Microstructure and mechanical properties of bulk highly faulted fcc/hcp nanostructured cobalt microstructures
Author/Authors
Barry، نويسنده , , Aliou Hamady and Dirras، نويسنده , , Guy and Schoenstein، نويسنده , , Frederic and Tétard، نويسنده , , Florent and Jouini، نويسنده , , Noureddine، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
8
From page
26
To page
33
Abstract
Nanostructured cobalt powders with an average particle size of 50 nm were synthesized using a polyol method and subsequently consolidated by spark plasma sintering (SPS). SPS experiments performed at 650 °C with sintering times ranging from 5 to 45 min under a pressure of 100 MPa, yielded to dense bulk nanostructured cobalt (relative density greater than 97%). X-ray diffraction patterns of the as-prepared powders showed only a face centered cubic (fcc) crystalline phase, whereas the consolidated samples exhibited a mixture of both fcc and hexagonal close packed (hcp) phases. Transmission electron microscopy observations revealed a lamellar substructure with a high density of nanotwins and stacking faults in every grain of the sintered samples. Room temperature compression tests, carried out at a strain rate of 10− 3 s− 1, yielded to highest strain to fracture values of up to 5% for sample of holding time of 15 min, which exhibited a yield strength of 1440 MPa, an ultimate strength as high as 1740 MPa and a Youngʹs modulus of 205 GPa. The modulus of elasticity obtained from the nanoindentation tests, ranges from 181 to 218 GPa. The lowest modulus value of 181 GPa was obtained for the sample with the highest sintering time (45 min), which could be related to mass density loss as a consequence of trapped gases releasing.
Keywords
nanostructured materials , microstructure , mechanical properties , Phase transformation , Cobalt
Journal title
Materials Characterization
Serial Year
2014
Journal title
Materials Characterization
Record number
2269368
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