Authors:
- Jean-François Chauvette (main author) : [email protected]
- David Brzeski (author)
- Daniel Therriault (supervisor and permanent corresponding author) : [email protected]
Please contact us if you want to contribute.
Please cite our Paper if you use this code. Thank you.
A model to predict the required pressure to apply for Direct-Ink-Writing of non-Newtonian polymer material through a single or multinozzle printing device following the input of a desired printing speed (i.e., linear extrusion velocity) of the material exiting the nozzle(s).
High-speed multinozzle additive manufacturing and extrusion modeling of large-scale microscaffold networks
- https://www.sciencedirect.com/science/article/pii/S2214860421004541
- Explanation of the microscaffold networks geometry and potential of multinozzle printheads.
- Citation (IEEE):
J.-F. Chauvette, D. Brzeski, I. L. Hia, R. D. Farahani, N. Piccirelli, and D. Therriault, “High-speed multinozzle additive manufacturing and extrusion modeling of large-scale microscaffold networks,” Additive Manufacturing, p. 102294, Sep. 2021, doi: 10.1016/j.addma.2021.102294.
We are looking for someone to convert the code from Matlab to Python in order to combine the MEPM to the Multinozzle Toolpath Generator (MTG). Contact us if you are interested.