Dataset for "Using Finite Element Analysis to Influence the Infill Design of Fused Deposition Modelled Parts"

This data archive contains the underlying data for the conference publication entitled "Using Finite Element Analysis to Influence the Infill Design of Fused Deposition Modelled Parts". The paper has been accepted for publication in the journal: Progress in Additive Manfacturing.

The paper describes a process that uses results attained from Finite Element Analysis (FEA) to influence the design of the internal structure (i.e. infill) of 3D printed parts by locally varying the composition of the infill based upon the associated stress values.

Keywords:
Infill, Internal Geometry, Topology Optimisation, 3D Printing, FDM, Fused Deposition Modelling, Additive Manufactuirng, Finite Element Analysis, FEA
Subjects:
Mechanical engineering

Cite this dataset as:
Gopsill, J., 2017. Dataset for "Using Finite Element Analysis to Influence the Infill Design of Fused Deposition Modelled Parts". Bath: University of Bath Research Data Archive. Available from: https://doi.org/10.15125/BATH-00420.

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Data

Archive.zip
application/zip (18MB)
Creative Commons: Attribution 4.0

three_point … optimisation_3.mp4
video/mp4 (2MB)
Creative Commons: Attribution 4.0

Creators

James Gopsill
University of Bath

Contributors

University of Bath
Rights Holder

Documentation

Technical details and requirements:

The zip file contains G-code (.x3g, .gcode) written for MakerBot 3D printers.

Documentation Files

README.md
text/plain (1kB)
Creative Commons: Attribution 4.0

Funders

Engineering and Physical Sciences Research Council
https://doi.org/10.13039/501100000266

The Language of Collaborative Manufacturing
EP/K014196/2

Publication details

Publication date: 28 November 2017
by: University of Bath

Version: 1

DOI: https://doi.org/10.15125/BATH-00420

URL for this record: https://researchdata.bath.ac.uk/id/eprint/420

Related papers and books

Gopsill, J. A., Shindler, J., and Hicks, B. J., 2017. Using finite element analysis to influence the infill design of fused deposition modelled parts. Progress in Additive Manufacturing, 3(3), 145-163. Available from: https://doi.org/10.1007/s40964-017-0034-y.

Contact information

Please contact the Research Data Service in the first instance for all matters concerning this item.

Contact person: James Gopsill

Departments:

Faculty of Engineering & Design
Mechanical Engineering