Dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing
To explore the influence of different biomimetic designs and multi-material additive manufacturing on the performance of a multi-material artificial spinal disc (ASD) in terms of restoring natural mechanics, four biomimetic ASD designs together with a control design are first fabricated using a Stra...
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Elsevier
2021
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oai:doaj.org-article:11ab5ff81157427db5c95acd1b6969ae2021-11-06T04:30:46ZDataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing2352-340910.1016/j.dib.2021.107527https://doaj.org/article/11ab5ff81157427db5c95acd1b6969ae2021-12-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2352340921008039https://doaj.org/toc/2352-3409To explore the influence of different biomimetic designs and multi-material additive manufacturing on the performance of a multi-material artificial spinal disc (ASD) in terms of restoring natural mechanics, four biomimetic ASD designs together with a control design are first fabricated using a Stratasys Connex3 Objet500 inkjet-based, multi-material 3D printer and their mechanical responses are measured using in-vitro mechanical testing. The mechanical tests include an angular test and a compression test to measure the ASD's behavior in the seven most frequent loading scenarios of a spine: flexion, extension, left/right lateral bending, left/right axial rotation, and compression. The angular test is performed using a custom six degrees of freedom, computer-controlled spine testing system together with an optoelectronic motion analysis system, while the compression test is performed using an Instron testing machine. The presented dataset includes 3D models of the five ASD designs, and raw data of the angular and compressive responses at different strain rates of the five ASD designs. This dataset is related to the article “Exploration of the influence of different biomimetic designs of 3D printed multi-material artificial spinal disc on the natural mechanics restoration” where the detailed designs and load responses of the five multi-material ASDs are presented (Yu et al., 2021). This dataset helps to gain insights into the influence of different biomimetic design concepts on the mechanics of a multi-material ASD and serves as a reference for the future design of multi-material ASDs.Zhiyang YuBenjamin VoumardKristina SheaTino StankovićElsevierarticleMulti-material additive manufacturing (AM)Artificial spinal disc (ASD)Biomimetic designin-vitro mechanical testingComputer applications to medicine. Medical informaticsR858-859.7Science (General)Q1-390ENData in Brief, Vol 39, Iss , Pp 107527- (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Multi-material additive manufacturing (AM) Artificial spinal disc (ASD) Biomimetic design in-vitro mechanical testing Computer applications to medicine. Medical informatics R858-859.7 Science (General) Q1-390 |
| spellingShingle |
Multi-material additive manufacturing (AM) Artificial spinal disc (ASD) Biomimetic design in-vitro mechanical testing Computer applications to medicine. Medical informatics R858-859.7 Science (General) Q1-390 Zhiyang Yu Benjamin Voumard Kristina Shea Tino Stanković Dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing |
| description |
To explore the influence of different biomimetic designs and multi-material additive manufacturing on the performance of a multi-material artificial spinal disc (ASD) in terms of restoring natural mechanics, four biomimetic ASD designs together with a control design are first fabricated using a Stratasys Connex3 Objet500 inkjet-based, multi-material 3D printer and their mechanical responses are measured using in-vitro mechanical testing. The mechanical tests include an angular test and a compression test to measure the ASD's behavior in the seven most frequent loading scenarios of a spine: flexion, extension, left/right lateral bending, left/right axial rotation, and compression. The angular test is performed using a custom six degrees of freedom, computer-controlled spine testing system together with an optoelectronic motion analysis system, while the compression test is performed using an Instron testing machine. The presented dataset includes 3D models of the five ASD designs, and raw data of the angular and compressive responses at different strain rates of the five ASD designs. This dataset is related to the article “Exploration of the influence of different biomimetic designs of 3D printed multi-material artificial spinal disc on the natural mechanics restoration” where the detailed designs and load responses of the five multi-material ASDs are presented (Yu et al., 2021). This dataset helps to gain insights into the influence of different biomimetic design concepts on the mechanics of a multi-material ASD and serves as a reference for the future design of multi-material ASDs. |
| format |
article |
| author |
Zhiyang Yu Benjamin Voumard Kristina Shea Tino Stanković |
| author_facet |
Zhiyang Yu Benjamin Voumard Kristina Shea Tino Stanković |
| author_sort |
Zhiyang Yu |
| title |
Dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing |
| title_short |
Dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing |
| title_full |
Dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing |
| title_fullStr |
Dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing |
| title_full_unstemmed |
Dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing |
| title_sort |
dataset of angular and compressive responses of biomimetic artificial spinal discs fabricated using multi-material additive manufacturing |
| publisher |
Elsevier |
| publishDate |
2021 |
| url |
https://doaj.org/article/11ab5ff81157427db5c95acd1b6969ae |
| work_keys_str_mv |
AT zhiyangyu datasetofangularandcompressiveresponsesofbiomimeticartificialspinaldiscsfabricatedusingmultimaterialadditivemanufacturing AT benjaminvoumard datasetofangularandcompressiveresponsesofbiomimeticartificialspinaldiscsfabricatedusingmultimaterialadditivemanufacturing AT kristinashea datasetofangularandcompressiveresponsesofbiomimeticartificialspinaldiscsfabricatedusingmultimaterialadditivemanufacturing AT tinostankovic datasetofangularandcompressiveresponsesofbiomimeticartificialspinaldiscsfabricatedusingmultimaterialadditivemanufacturing |
| _version_ |
1718443836585279488 |