Subventions et des contributions :

Subvention ou bourse octroyée s'appliquant à plus d'un exercice financier (2017-2018 à 2020-2021).

This project aims at evaluating the suitability of the advanced rheology-based measurement techniques for the improvement of flowability of water-atomized metallic powders and powder mixtures. These powders and powder mixtures serve as a feedstock for rapidly developing advanced manufacturing processes, such as the high processing speed compaction (PM), additive manufacturing via the laser powder-bed fusion and the binder-jetting techniques (AM), and the metal injection molding (MIM). The improvement of flow properties of these powders and powder mixture will allow fabrication of high performance products for transport and energy.x000D
x000D
Furthermore, the realization of this project will position our industrial partner as one of the largest suppliers of cost-effective steel powders to Canadian companies which turn towards PM, AM and MIM technologies with the objective to augment their overall competitiveness.x000D
x000D
A combination of cost-effective water-atomized powders with an improved buy-to-fly ratio and high in-process powder recycling rate of PM/AM/MIM manufacturing technologies would benefit both the industry and the environment.x000D
x000D
Finally, this research project will contribute to form highly qualified technical personnel trained in the fields of materials science and advanced manufacturing to satisfy the ever-growing demand from Canadian manufacturing industry.x000D