3D-printed biodegradable composite scaffolds with significantly enhanced mechanical properties via the combination of binder jetting and capillary rise infiltration process

Ji-Ho Ahn; Jin Young Kim; Ginam Han; DongEung Kim; Kwang-Hee Cheon; Hyun Lee; Hyoun-Ee Kim; Young-Jig Kim; Tae-Sik Jang; Hyun-Do Jung

doi:https://doi.org/10.1016/j.addma.2021.101988

doi.org/10.1016/j.addma.2021.101988

3D-printed biodegradable composite scaffolds with significantly enhanced mechanical properties via the combination of binder jetting and capillary rise infiltration process

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..., Hyun-Do Jung

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Additive Manufacturing11.00

Volume: 41, Pages: 101988 - 101988

Published: May 1, 2021

Abstract

For hard tissue engineering applications, biodegradable composite scaffolds have been extensively investigated because of their satisfactory mechanical properties and biocompatibility. Recently, 3D printing processes have received substantial attention in the tissue engineering field because of their ability to be customized for tissues that have suffered different types of loss or damage for each patient. However, previous studies on material...

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Paper Details

Title

3D-printed biodegradable composite scaffolds with significantly enhanced mechanical properties via the combination of binder jetting and capillary rise infiltration process

DOI

doi.org/10.1016/j.addma.2021.101988

Published Date

May 1, 2021

Journal

Additive Manufacturing

Volume

41

Pages

101988 - 101988

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