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Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
Mar 20, 2022
Erben, Amelie; Lissner, Josefine; Heymann, Michael, 2022, "Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip", https://doi.org/10.18419/DARUS-2612, DaRUS, V1
Vascularized alveoli designs generated from parametric design synthesis to realize context specific 3D design cues. Implemented variations include component type (#string1), alveoli size (#num1), degree of vascularization (#num2), and wall thickness (#num3) as specified in the respective file names: AV_#string1_#num1_#num2_#num3.STL , and illustrat...
1_design_naming_convention.png
1_design_naming_convention.png
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
PNG Image - 391.8 KB - MD5: 4060af931a5f424c6e33d74bc3c1c109
AV_1_1_1.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 26.3 MB - MD5: cdd6188213310ecf3aeb28089fb10d5c
AV_1_2_1.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 26.5 MB - MD5: a879dc032185ed2b1cdb1b5b4d9631cd
AV_1_3_1.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 24.2 MB - MD5: f4ec8250c4c2e0a5db2b44e6c8694bfe
AV_2_1_1.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 43.5 MB - MD5: 7293d55d3ad8c7788a9fdd4694299ff2
AV_2_2_1.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 50.8 MB - MD5: f37bb0c187e2b5c1ee5c93f410eb2ab8
AV_2_2_2.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 50.8 MB - MD5: ae1e94763814f27dc0d0541dd7a6ab50
AV_2_2_3.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 39.5 MB - MD5: 9813ec02b998eee410ac62b9accbb5c5
AV_2_3_1.stl
Mar 20, 2022 - Data for: Engineering Principles and Algorithmic Design Synthesis for Ultracompact Bio-Hybrid Perfusion Chip
STL Format - 45.8 MB - MD5: 400e5e5be6b70f4081089d1612ee8a98
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