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PolyJet Digital Materials Tensile Characterisation based on ASTM D412

Commonwealth Scientific and Industrial Research Organisation
Liow, Lois ; Pinskier, Josh ; Howard, David
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.25919/fkme-0b80&rft.title=PolyJet Digital Materials Tensile Characterisation based on ASTM D412&rft.identifier=https://doi.org/10.25919/fkme-0b80&rft.publisher=Commonwealth Scientific and Industrial Research Organisation&rft.description=In this experimental report, we present results from a series of tensile characterisation tests\nconducted on 3D printed material samples fabricated on a PolyJet multi-material 3D printer. Soft\ndigital materials with a Shore range from A-30 to A-95 were characterised to ASTM D412 standard.\nWe present a comprehensive analysis on 7 digital material blends, of Shore A values of 30, 40, 50,\n60, 70, 85, and 95, to show the Young’s Modulus, Tensile Strength, and Elongation at Break, and\npresent the hyperelastic stress-strain curves of each material. The complete data set has have not\nbeen published before, and are intended to assist the research community in the creation of novel\nsoft, functionally graded and multi-material devices across myriad fields including soft robotics and\nmeta-materials. As such, it is publicly available through CSIRO’s Data Access Portal.&rft.creator=Liow, Lois &rft.creator=Pinskier, Josh &rft.creator=Howard, David &rft.date=2023&rft.edition=v2&rft_rights=Creative Commons Attribution 4.0 International Licence https://creativecommons.org/licenses/by/4.0/&rft_rights=Data is accessible online and may be reused in accordance with licence conditions&rft_rights=All Rights (including copyright) CSIRO 2023.&rft_subject=Soft Robotics&rft_subject=Additive Manufacturing&rft_subject=Composite Materials&rft_subject=Digital Materials&rft_subject=PolyJet Blended Materials&rft_subject=PolyJet Materials&rft_subject=Tensile Characterisation&rft_subject=3D printing&rft_subject=Multi-material Printing&rft_subject=ASTM D412&rft_subject=Dogbone Test&rft_subject=Additive manufacturing&rft_subject=Manufacturing engineering&rft_subject=ENGINEERING&rft_subject=Composite and hybrid materials&rft_subject=Materials engineering&rft_subject=Modelling and simulation&rft_subject=Artificial intelligence&rft_subject=INFORMATION AND COMPUTING SCIENCES&rft_subject=Soft condensed matter&rft_subject=Condensed matter physics&rft_subject=PHYSICAL SCIENCES&rft.type=dataset&rft.language=English Access the data
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Brief description

In this experimental report, we present results from a series of tensile characterisation tests
conducted on 3D printed material samples fabricated on a PolyJet multi-material 3D printer. Soft
digital materials with a Shore range from A-30 to A-95 were characterised to ASTM D412 standard.
We present a comprehensive analysis on 7 digital material blends, of Shore A values of 30, 40, 50,
60, 70, 85, and 95, to show the Young’s Modulus, Tensile Strength, and Elongation at Break, and
present the hyperelastic stress-strain curves of each material. The complete data set has have not
been published before, and are intended to assist the research community in the creation of novel
soft, functionally graded and multi-material devices across myriad fields including soft robotics and
meta-materials. As such, it is publicly available through CSIRO’s Data Access Portal.

Available: 2023-07-06

Subjects
3D printing | ASTM D412 | Additive Manufacturing | Additive Manufacturing | Artificial Intelligence | Composite Materials | Composite and Hybrid Materials | Condensed Matter Physics | Digital Materials | Dogbone Test | Engineering | Information and Computing Sciences | Manufacturing Engineering | Materials Engineering | Modelling and Simulation | Multi-material Printing | Physical Sciences | PolyJet Blended Materials | PolyJet Materials | Soft Robotics | Soft Condensed Matter | Tensile Characterisation |

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