Data provided by National Institute of Standards and Technology
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, for single filaments, single filaments being disturbed by a nozzle, and printing pairs of filaments. 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 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.
About this Dataset
Updated: 2024-02-22
Metadata Last Updated:
2023-12-08 00:00:00
Date Created:
N/A
Views:
Data Provided by:
OpenFOAM
Dataset Owner:
N/A
| Title | Python tools for OpenFOAM simulations of fused filaments in embedded 3D printing, Version 1.2.0 |
|---|---|
| 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, for single filaments, single filaments being disturbed by a nozzle, and printing pairs of filaments. 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 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. |
| Modified | 2023-12-08 00:00:00 |
| Publisher Name | National Institute of Standards and Technology |
| Contact | mailto:[email protected] |
| Keywords | OpenFOAM , computational fluid dynamics , 3D printing , embedded 3D printing , bioprinting , polymer , rheology , interfacial energy |
{
"identifier": "ark:\/88434\/mds2-3128",
"accessLevel": "public",
"contactPoint": {
"hasEmail": "mailto:[email protected]",
"fn": "Leanne Friedrich"
},
"programCode": [
"006:045"
],
"@type": "dcat:Dataset",
"landingPage": "https:\/\/data.nist.gov\/od\/id\/mds2-3128",
"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, for single filaments, single filaments being disturbed by a nozzle, and printing pairs of filaments. 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 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.",
"language": [
"en"
],
"title": "Python tools for OpenFOAM simulations of fused filaments in embedded 3D printing, Version 1.2.0",
"distribution": [
{
"accessURL": "https:\/\/github.com\/usnistgov\/openfoamEmbedded3DP\/releases\/tag\/v1.2.1",
"format": "GitHub release",
"description": "Link to the GitHub release page for this version.",
"title": "GitHub"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-3128\/openfoamEmbedded3DP-1.2.1.zip",
"description": "zip file of the full code",
"mediaType": "application\/x-zip-compressed",
"title": "OpenFOAM Embedded 3DP code"
}
],
"license": "https:\/\/www.nist.gov\/open\/license",
"bureauCode": [
"006:55"
],
"modified": "2023-12-08 00:00:00",
"publisher": {
"@type": "org:Organization",
"name": "National Institute of Standards and Technology"
},
"accrualPeriodicity": "irregular",
"theme": [
"Mathematics and Statistics:Numerical methods and software",
"Mathematics and Statistics:Modeling and simulation research",
"Materials:Modeling and computational material science",
"Materials:Polymers",
"Manufacturing:Process improvement",
"Manufacturing:Process measurement and control",
"Manufacturing:Biomanufacturing",
"Manufacturing:Additive manufacturing",
"Bioscience:Biomaterials"
],
"issued": "2024-01-09",
"keyword": [
"OpenFOAM",
"computational fluid dynamics",
"3D printing",
"embedded 3D printing",
"bioprinting",
"polymer",
"rheology",
"interfacial energy"
]
}
