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Stereolithography Technology for Creating Solid Prototypes

Stereolithography Technology for Creating Solid Prototypes. Rapid Prototypes. What are they used for?. Manufacturability Quality Production Parts Production Tooling Unique Applications Experiments Optical analysis Material properties. Basic System Layout. A Full Scale Model.

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Stereolithography Technology for Creating Solid Prototypes

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  1. Stereolithography Technology for Creating Solid Prototypes

  2. Rapid Prototypes What are they used for? • Manufacturability • Quality • Production Parts • Production Tooling • Unique Applications • Experiments • Optical analysis • Material properties

  3. Basic System Layout

  4. A Full Scale Model

  5. Prototype Installed

  6. Fluid Flow Cell

  7. System Capabilities • Standard resolution build volume is a 10 inch cube. • Layer depth will be 0.004 inch. • Laser Beam Diameter 0.010 inch • High resolution build volume is a 5 inch square 10 inches tall. • Layer depth will be 0.002 inch. • Laser Beam Diameter 0.003 inch

  8. Detailed part with small features

  9. Nasal Passage • Original data source from 3mm section of human MRI. • Each adjacent section connected in Mech. Desktop and Gambit (a CFD analysis package)

  10. assembled model with solid “cavity”

  11. Individual cross sections

  12. Bone Structure • STL Data produced from Micro-CT scan data • Multiple specimens of identical structure can be made, reducing samples variations.

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