Videos and .stl files from Synergistic Fire Resistance of Nanobrick Wall Coated 3D Printed Photopolymer Lattices.The videos are from the fire tests of 3D printed photopolymer parts, from which time series still images were acquired. In these tests, printed parts (with or without a nanocoating) are subjected to direct blowtorch exposure until part failure (defined as when the part shatters). Most videos include time after torch removal while the part continues to burn.The .stl files are the files used to 3D print the parts studied in this work. They include objects with and without handles (to facilitate coating in a dipping robot) and with varying internal geometries, used to study the influence of part surface area on its flammability.The video files should be able to be played on any video playing software.The .stl files will need to be opened in computer aided design (CAD) software or in the slicer software of a 3D printer.
About this Dataset
Title | Supporting Info for Synergistic Fire Resistance of Nanobrick Wall Coated 3D Printed Photopolymer Lattices |
---|---|
Description | Videos and .stl files from Synergistic Fire Resistance of Nanobrick Wall Coated 3D Printed Photopolymer Lattices.The videos are from the fire tests of 3D printed photopolymer parts, from which time series still images were acquired. In these tests, printed parts (with or without a nanocoating) are subjected to direct blowtorch exposure until part failure (defined as when the part shatters). Most videos include time after torch removal while the part continues to burn.The .stl files are the files used to 3D print the parts studied in this work. They include objects with and without handles (to facilitate coating in a dipping robot) and with varying internal geometries, used to study the influence of part surface area on its flammability.The video files should be able to be played on any video playing software.The .stl files will need to be opened in computer aided design (CAD) software or in the slicer software of a 3D printer. |
Modified | 2022-12-21 00:00:00 |
Publisher Name | National Institute of Standards and Technology |
Contact | mailto:[email protected] |
Keywords | Fire protection , layer-by-layer , additive manufacturing |
{ "identifier": "ark:\/88434\/mds2-2888", "accessLevel": "public", "contactPoint": { "hasEmail": "mailto:[email protected]", "fn": "Thomas Kolibaba" }, "programCode": [ "006:045" ], "landingPage": "https:\/\/data.nist.gov\/od\/id\/mds2-2888", "title": "Supporting Info for Synergistic Fire Resistance of Nanobrick Wall Coated 3D Printed Photopolymer Lattices", "description": "Videos and .stl files from Synergistic Fire Resistance of Nanobrick Wall Coated 3D Printed Photopolymer Lattices.The videos are from the fire tests of 3D printed photopolymer parts, from which time series still images were acquired. In these tests, printed parts (with or without a nanocoating) are subjected to direct blowtorch exposure until part failure (defined as when the part shatters). Most videos include time after torch removal while the part continues to burn.The .stl files are the files used to 3D print the parts studied in this work. They include objects with and without handles (to facilitate coating in a dipping robot) and with varying internal geometries, used to study the influence of part surface area on its flammability.The video files should be able to be played on any video playing software.The .stl files will need to be opened in computer aided design (CAD) software or in the slicer software of a 3D printer.", "language": [ "en" ], "distribution": [ { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2888\/Electronic%20Supporting%20FIles.zip", "mediaType": "application\/zip" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2888\/Electronic%20Supporting%20FIles.zip.sha256", "mediaType": "text\/plain" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2888\/readme.txt", "format": ".txt", "description": "A document describing the contents of this MIDAS upload.", "mediaType": "text\/plain", "title": "Readme Document" } ], "bureauCode": [ "006:55" ], "modified": "2022-12-21 00:00:00", "publisher": { "@type": "org:Organization", "name": "National Institute of Standards and Technology" }, "theme": [ "Manufacturing:Additive manufacturing", "Materials:Polymers", "Fire:Materials flammability" ], "keyword": [ "Fire protection", "layer-by-layer", "additive manufacturing" ] }