Direct Writing of Cementitious Inks to Scaffolds with Complex Microarchitectures (DiWoCIS)
Funder: British CouncilDuration: June 2020 - September 2022
The 24-month collaborative project, funded under the Newton Fund Institutional Links route with Turkey, will bring together research teams from the UK and Turkey to extend new knowledge, specifically in the field of additive manufacturing and rheological optimisation of raw materials that are tailored for 3D printing. The project ambition is to develop an understanding of material science to manufacture complex microarchitectures that will be produced using Material Extrusion as an Additive Manufacturing process. Calcium phosphate cement will be utilised and its physical properties will be engineered.
People
| Name | Telephone | Office | ||
|---|---|---|---|---|
|
Professor Eujin Pei Associate Dean (Quality Assurance)/Professor
T: +44 (0)1895 268055
E: eujin.pei@brunel.ac.uk |
+44 (0)1895 268055 | eujin.pei@brunel.ac.uk | Michael Sterling 156 |
Outputs
Balani, SB., Ghaffar, SH., Chougan, M., Pei, E. and Şahin, E. (2021) 'Corrigendum to “Processes and materials used for direct writing technologies: A review” [Results in Engineering (2021) 11, 100,257] (Results in Engineering (2021) 11, (S259012302100058X), (10.1016/j.rineng.2021.100257))'. Results in Engineering, 13. pp. 1 - 1. ISSN: 2590-1230 Open Access Link
Balani, SB., Ghaffar, SH., Chougan, M., Pei, E. and Şahin, E. (2021) 'Processes and materials used for direct writing technologies: A review'. Results in Engineering, 11 (September 2021). pp. 1 - 17. ISSN: 2590-1230 Open Access Link