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* [[Development and feasibility of applications for the RepRap 3-D printer]] | * [[Development and feasibility of applications for the RepRap 3-D printer]] | ||
* [[Viability of Distributed Manufacturing of Bicycle Components with 3-D Printing: CEN Standardized Polylactic Acid Pedal Testing]] | * [[Viability of Distributed Manufacturing of Bicycle Components with 3-D Printing: CEN Standardized Polylactic Acid Pedal Testing]] | ||
* [[Wood Furniture Waste-Based Recycled 3-D Printing Filament]] | |||
* [[Life cycle analysis of distributed polymer recycling]] | * [[Life cycle analysis of distributed polymer recycling]] | ||
* [[Recyclebot]], [[Waste plastic extruder]] and [[Open source controller for polymer extruder]] | * [[Recyclebot]], [[Waste plastic extruder]] and [[Open source controller for polymer extruder]] | ||
* [[Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament]] | * [[Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament]] | ||
* [[Energy Payback Time of a Solar Photovoltaic Powered Waste Plastic Recyclebot System]] | * [[Energy Payback Time of a Solar Photovoltaic Powered Waste Plastic Recyclebot System]] | ||
* [[RepRapable Recyclebot: Open source 3-D printable extruder for converting plastic to 3-D printing filament]] | |||
* [[Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties]] | |||
* [[3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing]] | |||
* [[Mechanical properties of 3-D printed truss-like lattice biopolymer non-stochastic structures for sandwich panels with natural fibre composite skins]] | |||
Revision as of 11:41, 1 February 2019
This project will provide solar photovoltaic power for a distributed manufacturing process that allows digital fabrication from recycled plastic.
Publications
- Debbie L. King, Adegboyega Babasola, Joseph Rozario, and Joshua M. Pearce, “Mobile Open-Source Solar-Powered 3-D Printers for Distributed Manufacturing in Off-Grid Communities,” Challenges in Sustainability 2(1), 18-27 (2014). open access
See also
- Mechanical testing of polymer components made with the RepRap 3-D printer
- Mechanical Properties of Components Fabricated with Open-Source 3-D Printers Under Realistic Environmental Conditions
- Development and feasibility of applications for the RepRap 3-D printer
- Viability of Distributed Manufacturing of Bicycle Components with 3-D Printing: CEN Standardized Polylactic Acid Pedal Testing
- Wood Furniture Waste-Based Recycled 3-D Printing Filament
- Life cycle analysis of distributed polymer recycling
- Recyclebot, Waste plastic extruder and Open source controller for polymer extruder
- Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament
- Energy Payback Time of a Solar Photovoltaic Powered Waste Plastic Recyclebot System
- RepRapable Recyclebot: Open source 3-D printable extruder for converting plastic to 3-D printing filament
- Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties
- 3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing
- Mechanical properties of 3-D printed truss-like lattice biopolymer non-stochastic structures for sandwich panels with natural fibre composite skins