{"@type": "dcat:Dataset", "accessLevel": "public", "accrualPeriodicity": "irregular", "bureauCode": ["006:55"], "contactPoint": {"fn": "Jonathan Seppala", "hasEmail": "mailto:jonathan.seppala@nist.gov"}, "description": "In embedded 3D printing, a nozzle is embedded into a support bath and extrudes filaments or droplets into the bath. Using OpenFOAM, we simulated the extrusion of filaments and droplets into a moving bath. OpenFOAM is an open source computational fluid dynamics solver. This repository contains the following Python tools: - Tools for generating input files for OpenFOAM v1912 or OpenFOAM v8 tailored to a conical or cylindrical nozzle extruding a filament into a static support bath. - Tools for monitoring the status of OpenFOAM simulations and aborting them if they are too slow. - Tools for moving output files between storage locations. (For example, it can automatically move all files to a server, but only necessary files to your hard drive) - Tools for generating images and tables from the 3D time series. - Tools for compiling images into videos. - Tools for analyzing, summarizing, and plotting data.This version is associated with the paper:Friedrich, L.M., Gunther, R.T. & Seppala, J.E. (2022) Simulated stress mitigation strategies in embedded 3D bioprinting, submitted for publication", "distribution": [{"accessURL": "https://github.com/usnistgov/openfoamEmbedded3DP/releases/tag/v1.1.1", "description": "Link to Github page. Living code is updated at this repository. The link goes to a static version, frozen at time of paper submission.", "format": "link to Github", "title": "Github release v1.1.1"}, {"description": "A zip file of Python tools for OpenFOAM embedded 3D printing, version 1.1.1. Only the readme varies from 1.1.0.", "downloadURL": "https://data.nist.gov/od/ds/mds2-2602/openfoamEmbedded3DP-1.1.1.zip", "mediaType": "application/x-zip-compressed", "title": "Python tools for OpenFOAM embedded 3D printing, version 1.1.1"}], "identifier": "ark:/88434/mds2-2602", "keyword": ["3d printing", "OpenFOAM", "additive manufacturing", "bioprinting", "computational fluid dynamics", "embedded 3D printing", "embedded ink writing", "polymer", "rheology"], "landingPage": "https://data.nist.gov/od/id/mds2-2602", "language": ["en"], "license": "https://www.nist.gov/open/license", "modified": "2022-04-06 00:00:00", "programCode": ["006:045"], "publisher": {"@type": "org:Organization", "name": "National Institute of Standards and Technology"}, "theme": ["Manufacturing:Additive manufacturing", "Manufacturing:Biomanufacturing", "Materials:Modeling and computational material science", "Materials:Polymers", "Mathematics and Statistics:Modeling and simulation research", "Mathematics and Statistics:Numerical methods and software"], "title": "Python tools for OpenFOAM simulations of filament shapes in embedded 3D printing, Version 1.1.0"}