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RESEARCH PRODUCT
Investigation of mechanically activated field-activated pressure-assisted synthesis processing parameters for producing dense nanostructured FeAl
Eric GaffetFrédéric BernardS. ParisS. ParisL. GosmainCh. ValotZuhair A. Munirsubject
DiffractionMaterials scienceMechanical EngineeringMetallurgyIntermetallicFEALCondensed Matter PhysicsMicrostructureChemical engineeringMechanics of MaterialsResidual stressRelative densityGeneral Materials ScienceCurrent densityIntensity (heat transfer)description
The parameters of the mechanically activated field-activated pressure-assisted synthesis (MAFAPAS) process, which were recently developed and patented for producing dense nanostructured materials, were studied in the case of the B2-FeAl intermetallic. Based on x-ray diffraction (XRD) experiments, residual stresses XRD analysis, relative density measurement, and secondary-electron microscopic observations, the optimal synthesis conditions (time, current intensity, and pressure) were studied. Fe + Al powders were comilled in a specially designed planetary mill to obtain a mixture of reactants at the nanoscale without the formation of any product. The milled mixtures were then subjected to a high density of alternating current (60 Hz ac, total current 1250 or 1500 A), a uniaxial pressure (70 or 106 MPa), and different times (from 2 to 5 min). This work confirms the reproducibility of the MAFAPAS process, showing the essential role of the mechanical activation step to produce a pure nanostructured material. In addition, the composition and the microstructure of MAFAPAS end-products depended on the processing parameters (time, current density, mechanical pressure). In particular, it was observed that the process of simultaneous synthesis and consolidation of the product introduced a high level of residual stresses.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2003-10-01 | Journal of Materials Research |