Design, manufacture and test equipment, tools, and prototypes of medical devices.
The Advanced Machine Shop is part of the device development lab within the Centre for Research in Image-Guided Therapeutics at Sunnybrook Research Institute. It is a state-of-the-art facility equipped for the design, fabrication and testing of medical devices. It specializes in the manufacture of magnetic resonance imaging-compatible devices, prototypes, custom-made parts and catheter-based devices, and in 3D computer-assisted design. The technicians within the facility are capable of working from drawings, hand sketches or ideas in one’s head, and can help transform a concept into a working prototype. Materials used in the facility include aluminum, stainless steel, plastics, brass, wood and exotic materials.
The facility is equipped with a CNC (computer numerical controlled) lathe and mill, five-axis waterjet cutter, 3D printers (stereolithography and fused deposition modeling technology in a variety of materials), manual lathes, manual mills, hydraulic shear, bender, table saw, router and bead blaster. The machines and services of technicians are available to users within Sunnybrook Research Institute, the hospital, external academic institutions and industrial clients.
In addition to fabricating parts, the facility performs testing and characterization of medical imaging systems in partnership with Sunnybrook Research Institute scientists.
- Design and manufacture medical tools and test equipment
- Develop prototypes
- Machining (CNC and manual)
- Waterjet cutting
- Rapid prototyping (3D printing)
- Healthcare and social services
- Life sciences, pharmaceuticals and medical equipment
- Manufacturing and processing
Specialized labs and equipment
| Equipment | Function |
|---|---|
| 3DSystems ProJet 7000 HD SLA Printer | Stereolithography (SLA) 3D printer. Prints Class IV materials. |
| Fortus 400mc FDM Printer | Fused Deposition Modeling (FDM) 3D printer. Prints various materials. |
| Flow XD Mach 4 Waterjet Cutter | Cut almost any material. |
| Microlution 5100-S CNC Micro Milling Machine | Five-axis computer numerical controlled (CNC) mill designed to process small parts. |
| Deckel Maho DMU 50T CNC milling machine | Machine medium size parts. |
| DMG Gildemeister CTX 310 CNC Lathe | Live tooling enables machining of features on parts in one set up. |
| Cyclematic CTL-618e Toolroom Lathe | Manual machining. |
| Colchester Master 2500 Lathe | Manual machining. |
| Harrison VS330 TR Lathe | Manual machining. |
| Argo LVS Milling Machine | Manual machining. |
| Bridgeport Milling Machine | Manual machining. |
| FIRST LCI-1/2vs Milling Machine | Manual machining. |
| FIRST LC-20VHS Milling Machine | |
| Hydraulic shear, bender and roller | Perform sheet metal work. |
| Drill Press | |
| Bead blaster | |
| Cabinet saw | |
| Compound mitre saw | |
| Router and router table |
Private and public sector research partners
- Solenic Medical
- Orthofix 7D Surgical ULC
- FUS Instruments
- 8fold manufacturing
- The Hospital for Sick Children
- St. Michael’s Hospital
- Princess Margaret Hospital
- Toronto Metropolitan University
- Arrayus Technologies Inc.
- University of Toronto
- Magellan Biomedical
Additional information
| Title | Hyperlink |
|---|---|
| Titanium is king when it comes to implants | https://www.canadianmetalworking.com/canadianmetalworking/article/metalworking/titanium-is-king-when-it-comes-to-implants |