Prototyping & Fabrication Equipment

University of Utah Health

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Access & Safety

Equipment Use Guidelines:

  • Students must complete an online training program before gaining access to the Innovation Lab. This course is offered free of charge and is taught using the Canvas platform. To enroll in the Canvas training course, please contact the lab via email cmiprotolab@utah.edu
  • CMI personnel will operate heavy and specialized equipment such as CNC mill, CNC lathe, Epilog laser, & 3D printers for students when requested.
  • Students may use general prototyping equipment including drills, hammers, saws, soldering equipment, oscilloscopes, etc. at the lab in the workspaces provided

 

    3D Printing: Filament

    Prusa XL

    Fused Filament Fabrication (FFF)

    Our news printer, the Prusa XL offers a wide variety of material times and a large printbed, great for rapid prototyping and low-volume production parts with simple geometries.

    • Build Volume: 360 x 360 x 360 mm (14.17 x 14.17 x 14.17 in)
    • Layer Height: 0.07 - 0.30 mm
    • Materials: PLA, PETG, TPU, PVA (water soluble support) - inquire for availability and specific colors
      •  

    Prusa MINI

    Fused Filament Fabrication (FFF)

    Our Prusa MINI offers the same great print resolution as the Prusa XL but on a smaller scale. With one toolhead, parts printed on the Prusa MINI are available only as a single material

    • Build Volume: 180 x 180 x 180 mm (7 x 7 x 7 in) 
    • Layer Height: 0.05 - 0.25 mm 
    • Materials: PLA, PETG, TPU

    View current 3D printing rates (opens in a new tab)

    3D Printing: Powder Bed Fusion

    Formlabs Fuse 1

    Powder Bed Fusion

     

    How it works: Powder Bed Fusion (PBF)

    1. The printing area (known as a build envelope) heats to just below the melting point of the powder. Once it reaches temperature, a small amount of powder is distributed across the bottom of the build envelope for insulation.
    2. Ready to start printing, the machine begins depositing the powder layer by layer across the entire printing surface. On the Fuse1, the layer thickness is 0.004", or 110 microns.
    3. After a layer of powder has been deposited, a laser will selectively fuse the cross-section of the part for that individual layer. It may fuse a layer for only one part, or it may fuse many different parts in different areas at this layer.
    4. When the laser finishes fusing the cross section for each part in this layer, the build platform will lower itself 0.004" and another layer of powder will be deposited. The laser will again fuse only the powder necessary for the geometry of the part on this layer.
    5. This process of fusing layers and depositing powder will continue until the entire build envelope has been filled. Because the entire print area is covered in powder on each layer, the solid, fused parts are supported by the unfused powder - no need to build extra support structures like with resin or filament printers.
    6. The build envelope must cool down before the printed parts can be removed from the unfused powder. This minimizes the risk of parts warping shape, and ensures printed parts meet the specified material properties (including durability).
    Learn more about the Fuse1 from Formlabs

    View current 3D printing rates (opens in a new tab)

    3D Printing: SLA / Resin

    Formlabs Form 3

    Stereolithography (SLA)

    • Build Volume: 5.7 x 5.7 x 7.3 in
    • Layer Resolution: Up to .001 in
    • Laser Spot Size (X & Y Resolution): .0033 in
    • Materials: BioMed White, Clear, Elastic 50A, Flexible 80A, Silicone 40A, Tough 2000
      • More information on material properties are available here

    View current 3D printing rates (opens in a new tab)

    Laser Cutting & Engraving

    Epilog Fusion Fusion Pro Laser

    The Epilog Fusion Pro 48 laser is capable of engraving and cutting a wide range of materials. This top-of-the-line laser system includes both a 120 Watt CO2 laser and a 50 Watt fiber laser.

    Specs:

    • Workable Area: 48” x 36”
    • Power: 120 Watt CO2 & 50 Watt Fiber

    Typical Materials for Cutting

    • Acrylic, Wood, Paper, Card Stock, Cork, NON-chlorine rubber, 

    Typical Materials for etching / engraving: 

    • Anodized Aluminum, Glass, Acrylic, Wood, Paper, Card Stock, Cork, NON-chlorine rubber

    For health and safety purposes, some materials are NOT ALLOWED in our Epilog laser. These include:

    • PVC, Vinyl, Pleather, Polycarbonate, ABS, HDPE, PolyStyrene Foam, Polypropylene Foam, Fiberglass, Coated Carbon Fiber

     

    For more information see the Epilog Laser User Manual

    epilog-fusion-laser
    CNC Mill & Lathe

    We are pleased to offer CNC equipment for precision machining. For more information regarding stock availability, set-up, and secondary machining costs, please contact cmiprotolab@utah.edu directly. 

    tormach-cnc-mill-770M

    4-AXIS CNC MILL

    TORMACH 770M

    X-Axis: 14 in. (356 mm)

    Y-Axis: 7.5 in. (191 mm)

    Z-Axis: 13.25 in. (337 mm)

    tormach-cnc-lathe-15L-slant

    CNC Lathe

    15L Slant Pro CNC Lathe by Tormach

    • X-Axis Travel: 10 in. (254 mm)
    • Z-Axis Travel: 12 in. (305 mm)
    • Recommended Chuck Size: 6 in. (152 mm)
    Power Tools & Other Equipment

    The Gary Crocker Innovation and Design lab houses a wide range of quality tools and equipment for fabrication of proof-of-concept, first-generation, and even short-run productions of pretty much anything.

    For access to the tools and workspaces offered at the Innovation and Design lab, please contact cmiprotolab@utah.edu.

     

    Heavy Equipment

    Hand Tools

    Measuring Tools
    Craftsman 14" Vertical Bandsaw Cordless Drills Rulers*
    JET Horizontal Bandsaw 814 Cordless Circular Saw Calipers*
    JET Variable Speed 15" Drill Press Dremel tool Micrometers*
    Ryobi bench-mounted Disc & Belt Sander Screwdrivers Machinist Gauges*
      Soldering & microelectronics Compass
      Hex & Box-End Wrenches (imperial & metric) Levels
      Sockets *calibrated equipment
      Bench Vise  
      Pliers  

     

    We also have an assortment of adhesives, fasteners, taps/dies, and anything you need to complete your prototype.

    3D Scanning

    EinScan SE V2

    The EinScan SE V2 3D Scanner allows for capturing high definition digital models of a physical object. 

    Specifications:

    • Fixed Scan with Turntable
    • Minimum scan volume: 30mm3
    • Maximum scan volume: 200 mm3
    • Output format: OBJ, STL, ASC, PLY, 3MF
    • Scan accuracy: <0.1mm
    • Camera resolution: 1.3MP
    • Software: EXScan S 
    ein-scan_w-turntable
    Verification Testing
    Testometric M350-5 material testing

    Materials Testing

    Testometric M350-5

    The Testometric M350-5 range of twin column, computer controlled universal materials testing machine using Testometric’s feature-rich winTest™ Analysis software running under the Windows™ operating system. Test setups are fully configurable and simple or more complex multi-stage test routines are controlled using the standard PC serial interface.

    Specs:

    • Load cells: 5kg and 500kg
    • Capabilities: Tension, compression, and 3-point bend test
    • Pneumatic vise grips with exchangeable jaws (rubber and wave)
    • Speed range: 0.001 to 2000mm/min in steps of 0.001mm/min
    • Crosshead travel: 1100mm
    • Throat: 290mm
    • Software: winTest Analysis
    • Calibrated by Western States Calibration 

    Environmental Testing

    Thermotron SM-8-8200 Humidity Chamber

    The Thermotron SM-8-8200 Humidity Chamber provides a flexible range of simulated environmental conditions which can be tailored to a variety of quality standards specifications.

    Specs:

    • Internal Dimensions: 24 in x24 in x 24in 
    • Temperature Range: -70°C to 180°C
    • Humidity Range: 10% to 98% relative humidity