Membership Category
- Regular
Institution
- École de Technologie Supérieure - ETS
Discipline(s)
- Electrical Engineering and Electronic Engineering
- Physical Engineering
Expertises
- High Voltage
- Dielectric Materials
- Bio-modeling
- Nanocomposites
- Polymeric Systems
- Nanomaterials
Scientific activities and affiliations
- Département de génie mécanique
Affiliated research axes
Change and Transition Management
Planning Optimization
Resource and Product Maximization
Policy levers
Projects funded by the RRECQ
Development of a metal-infused recyclable raw material for low-cost 3D printing in the context of circular manufacturing
Description
The project focuses on the development of a new recyclable 3D printing feedstock for low-cost printers.
It explores the unique reaction of nickel and iron with carbon monoxide, which form nickel and iron carbonyl, respectively, to provide an ideal mechanism to recycle the metals, as well as nickel- and iron-based products.
The research aims to develop metal-infused recyclable filaments with high concentrations of nickel and iron carbonyl powders to make functional and resistant metal parts using widespread, low-cost 3D printing processes such as fused filament fabrication.
Themes
- 3D printing
- Plastic
- Polymers
- Recycling
