Damage in extrusion additive manufactured parts: Effect of environment and cyclic loading

Moetazedian, Amirpasha; Gleadall, Andrew; Mele, Elisa; Silberschmidt, Vadim V.

doi:10.1016/j.prostr.2020.10.053

All Outputs (8)

Performance and Optimisation of Microfluidic Channels with Acute Angles and Serpentine Curvatures (2024)
Book Chapter
Saadat, M., Hughes, A., Jungclaussen, A., Hajiyavand, A., Poologasundarampillai, G., Moetazedian, A., & Malboubi, M. (2024). Performance and Optimisation of Microfluidic Channels with Acute Angles and Serpentine Curvatures. In M.-R. Alam, & M. Fathi (Eds.), . Springer Nature Switzerland. https://doi.org/10.1007/978-3-031-53652-6_5

M3D-BIO - Microfluidics-Enabled 3D Printing for Biofabrication (2023)
Presentation / Conference Contribution
Moetazedian, A., Candeo, A., Bassi, A., Cox, L. R., Grover, L. M., & Poologasundarampillai, G. (2023, June). M3D-BIO - Microfluidics-Enabled 3D Printing for Biofabrication. Presented at 2nd International Conference on Medical Devices: Materials, Mechanics and Manufacturing (ICMD3M 2023), Corfu, Greece

Microfluidics market is the fastest growing research area in the world, and they have shown much promise in biofabrication and 3D bioprinting of tissues and organs. However, microfluidics is conventionally produced using drawn-out and expensive litho... Read More about M3D-BIO - Microfluidics-Enabled 3D Printing for Biofabrication.

Microfluidic-based 3D bioprinting for fabrication of helical fibres (2023)
Presentation / Conference Contribution
Moetazedian, A., Candeo, A., Bassi, A., Grover, L., Cox, L., & Poologasundarampillai, G. (2023, March). Microfluidic-based 3D bioprinting for fabrication of helical fibres. Poster presented at Tissue Engineering and Regenerative Medicine International Society (TERMIS) European Chapter Meeting 2023, Manchester

INTRODUCTION: 3D extrusion-based bioprinting has emerged as a promising technology for development of advanced and viable organs and tissues and functional 3D in vitro disease models [1,2]. However, these developments have failed to recapitulate the... Read More about Microfluidic-based 3D bioprinting for fabrication of helical fibres.

Microfluidic-based 3D bioprinting to fabricate blood vasculature (2023)
Presentation / Conference Contribution
Moetazedian, A., Cox, L., Grover, L., & Poologasundarampillai, G. (2022, June). Microfluidic-based 3D bioprinting to fabricate blood vasculature. Presented at UK Society for Biomaterials 22nd Annual Conference (UKSB 2022), University of Sheffield

Introduction:
The most substantial healthcare challenge facing the UK is the inevitable transition towards ageing population. Organ transplantation as the gold-standard treatment has saved many lives and millions of pounds for the NHS; however, ever... Read More about Microfluidic-based 3D bioprinting to fabricate blood vasculature.

Investigation on corner precision at different corner angles in material extrusion additive manufacturing: An experimental and computational fluid dynamics analysis (2022)
Presentation / Conference Contribution
Mollah, M. T., Moetazedian, A., Gleadall, A., Yan, J., Alphonso, W. E., Comminal, R., Šeta, B., Lock, T., & Spangenberg, J. (2022, July). Investigation on corner precision at different corner angles in material extrusion additive manufacturing: An experimental and computational fluid dynamics analysis. Presented at 2022 International Solid Freeform Fabrication Symposium, University of Texas at Austin

This paper investigates the influence of different corner angles on microscale geometry in material extrusion additive manufacturing. Polylactic acid (PLA) was 3D-printed with corner angles of 15°, 30°, 45°, 60°, 75°, 90°, and 135° using Bowden and D... Read More about Investigation on corner precision at different corner angles in material extrusion additive manufacturing: An experimental and computational fluid dynamics analysis.

Hydrolytic degradation of polylactide in extrusion additive manufacturing (2022)
Thesis
Moetazedian, A. Hydrolytic degradation of polylactide in extrusion additive manufacturing. (Thesis). Loughborough University. https://hull-repository.worktribe.com/output/4864755

The combined use of material extrusion additive manufacturing (MEAM) and biodegradable polymers such as polylactide (PLA) is one of the most versatile and valuable manufacturing strategies for biomedical applications. MEAM enables rapid production of... Read More about Hydrolytic degradation of polylactide in extrusion additive manufacturing.

CONVEX microfluidic devices: a new microscale agile manufacturing pipeline for material extrusion additive manufacturing (2022)
Preprint / Working Paper
Moetazedian, A., Nasrollahi, V., Candeo, A., Cox, L., Grover, L., & Poologasundarampillai, G. CONVEX microfluidic devices: a new microscale agile manufacturing pipeline for material extrusion additive manufacturing

This study is the first to report the fabrication of complex microfluidic devices based on CONtinuously Varied EXtrusion (CONVEX) of extruded filament in material extrusion additive manufacturing (MEAM). A range of complex geometries and channel widt... Read More about CONVEX microfluidic devices: a new microscale agile manufacturing pipeline for material extrusion additive manufacturing.

Damage in extrusion additive manufactured parts: Effect of environment and cyclic loading (2020)
Presentation / Conference Contribution
Moetazedian, A., Gleadall, A., Mele, E., & Silberschmidt, V. V. (2020, June). Damage in extrusion additive manufactured parts: Effect of environment and cyclic loading. Presented at 1st Virtual European Conference on Fracture, Online

With a general cautious attitude regarding the anisotropic properties of upright 3D-printed parts, there is a lack of fundamental understanding of behavior of 3D-printed polymers under cyclic loading condition, which is more representative of real-li... Read More about Damage in extrusion additive manufactured parts: Effect of environment and cyclic loading.