Consolidation by MF-ERS of mechanically alloyed Al powder

The aim of this work is to study the viability of producing, by medium-frequency electrical resistance sintering (MF-ERS), compacts from mechanically alloyed aluminium powders. The MF-ERS process was carried out using different values of current intensity (6, 8, 10 and 11 kA) and dwelling (heating)...

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Bibliographic Details
Authors: Sánchez Caballero, Eduardo, Ternero Fernández, Fátima, Astacio, Raquel, Gómez Cuevas, Francisco de Paula, Montes Martos, Juan Manuel, Cintas Físico, Jesús
Format: article
Publication Date:2019
Country:España
Institution:Universidad de Huelva (UHU)
Repository:Arias Montano. Repositorio Institucional de la Universidad de Huelva
Language:English
OAI Identifier:oai:ariasmontano.uhu.es:10272/22783
Online Access:https://hdl.handle.net/10272/22783
Access Level:Open access
Keyword:Mechanical alloying
Aluminium
Electrical resistance sintering
MF-ERS
FAST
ECAS
Hot pressing
Sintering
Powder metallurgy
33 Ciencias Tecnológicas
Description
Summary:The aim of this work is to study the viability of producing, by medium-frequency electrical resistance sintering (MF-ERS), compacts from mechanically alloyed aluminium powders. The MF-ERS process was carried out using different values of current intensity (6, 8, 10 and 11 kA) and dwelling (heating) times (400, 700 and 1000 ms). Results were compared with compacts processed by the conventional cold pressing and sintering route (850 MPa and 650 °C-1h). Depending on the processing route different properties were obtained. The final porosity of the MF-ERS compacts (23.6–7%) can be as low, under the tougher tested sintering conditions, as that of the conventionally produced compacts (6%). The compacts obtained by MF-ERS are less ductile, with lower compression strength than that obtained by the conventional route. Furthermore, a similar electrical resistance and higher microhardness can be reached by the MF-ERS process, despite the duration of the consolidation process is only a fraction of that of the conventional process.