This is my homepage, which I don't use.
Department of Biomedical Engineering
Lab Website: Biomechanics of Growth & Remodeling Lab
- 3d Printing, Laser Cutter, Lathe, Mill, Woodworking, Sand casting
- Welding: TIG, MIG, Stick, & Oxy-acetylene
- CAM - AutoDesk Fusion 360
- 3D Printing: Cura, Sprinter Firmware, Slic3r,
- Programming - LabVIEW, MATLAB, Mathematica
- Learing - Slicer for Fusion 360, blender
- Makerspace Training Certifications
Tulane Makerspace Project Portfolio
Exorcist3D YouTube Channel
Here's my YouTube channel, several videos of my 3D printer and South Bend lathe are found here:
OpenSource 3D Printer
In 2013, I built my own opensource 3D Printer. I modified the Prusa i3 design. Controlled by: Arduino Mega + RAMPS 1.5 with Sprinter firmware. The frame is made from 1/4" laser cut steel plates and 3/4" lathe turned rods. The build surface is heated and 10" x 10" x 10". Recently, I made several improvements and upgrades, which include a large screen graphical LCD with SD card reader and a genuine E3D titan extruder. Future upgrades include a BL Touch auto bed level and 1.75mm E3D V6 Nozzle.
Several of the parts I printed in the Makerspace: * Tan LCD display box * Purple X-axis belt tension bracker * Purple Arduino & Ramps box * Purple Printer cooler fan shroud
1934 South Bend Lathe Restoration & Projects
Over Christmas break 2017, I machined some small parts for my lab. These parts are cannula, used to mount soft tissues on our inflation-extension test device. The material is PEEK plastic, it can be auto-claved and machines nicely. Check out my YouTube link above, there is a quick video of the PEEK being machined. The lathe I used is a 1934 Southbend 9" Workbench 405. This lathe is a restoration project I completed in 2010.
JasonS 17 January 2018