UNIVERSITY OF WATERLOO PROFILE
In just half a century, the University of Waterloo, located at the heart of Canada’s technology hub, has become a leading comprehensive university with more than 36,000 full- and part-time students in undergraduate and graduate programs.
Consistently ranked Canada’s most innovative university, Waterloo is home to advanced research and teaching in science and engineering, mathematics and computer science, health, environment, arts and social sciences. From quantum computing and nanotechnology to clinical psychology and health sciences research, Waterloo brings ideas and brilliant minds together, inspiring innovations with real impact today and in the future.
As home to the world's largest post-secondary co-operative education program, Waterloo embraces its connections to the world and encourages enterprising partnerships in learning, research, and commercialization. With campuses and education centres on four continents, and academic partnerships spanning the globe, Waterloo is shaping the future of the planet.
Find out more about the University of Waterloo at https://uwaterloo.ca/about/who-we-are/waterloo-facts.
Background - MSAM
The Faculty of Engineering’s Multi-Scale Additive Manufacturing (MSAM) Laboratory, hosted at the University of Waterloo, is one of the largest research and development additive manufacturing facilities in the world: http://msam-uwaterloo.ca/
The University of Waterloo, on behalf of MSAM, has entered into the Collaborative Science Technology & Innovation Program with the National Research Council (NRC) of Canada to research the development and characterization of metal additive manufacturing powders and parts.
Project Overview -
This collaboration proposes an investment in equipment that will extend the University of Waterloo’s Multi-scale Additive Manufacturing (MSAM) lab’s capabilities in metal additive manufacturing, powder processing and process characterization, and includes the acquisition of a High speed CNC Wire EDM System. The equipment is required for high precision finishing of additively manufactured parts, requiring minimal part distortion, high surface quality in removing components off the plate. High precision complex cuts will be required for minimizing material usage in additive manufacturing as well as for secondary component interface operations.
The project budget for this piece of equipment/system is less than $195,000 CAD, not including HST.
This Request for Proposal is issued in concert with funding from the NRC Collaborative Science Technology & Innovation Program
