Posters
« Back
Embedding Quality by Design for 3D Printed Bone Implants
EP25784
Embedding Quality by Design for 3D Printed Bone Implants
Submitted on 16 May 2017

Daniel Martinez Marquez
School of Engineering, Griffith University, Australia
This poster was presented at 3D Printing in Science European Congress
Poster Views: 262
View poster »
Poster Abstract
This research presents the outcomes of an adaptation of the QbD approach to custom 3D printed bone implants. The herein suggested QbD framework will ensure that 3D printed bone prostheses will be able to produce error free products for consumers, which will lead to heightened confidence in this emerging manufacturing technology.Report abuse »
Questions
Ask the author a question about this poster.
Ask a Question »

Creative Commons

Related Posters


Validation of an Image-Based 3D Natural Killer Cell Mediated Cytotoxicity Assay
Brad Larson1, Lubna Hussain2 and Jenny Schroeder3

Quantitative Live-Cell Analysis Using Automated Long-Term Imaging
Joe Clayton and Peter Banks

Micropatterned polymer scaffolds for guiding 3-dimensional cultivation of cells
Justyna Borowiec, Frank Weise, Jörg Hampl, Patrick Mai, Sukhdeep Singh, Martin Bača, Andreas Schober

vasQchip: An artificial blood vessel scaffold for complex 3D applications
Kappings V., Grün C., Ivannikov D., Hebeiss I., Fricker G., Schepers U.

MatriGrid® - Mimicking real organ structures with biolithomorphic processed porous membranes
Mai, P.*, Baca, M.*, Borowiec, J.*, Brauer, D.*, Gebinoga, M.*, Hampl, J.*, Schlingloff, G.*, Singh, S.*, Weise, F.*, Behr, R.', Beck, J.", Frey, J.", Voigt, A.", Schober, A.*