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==See Also== | ==See Also== | ||
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!<big>RepRapable Recyclebot</big> | !<big>RepRapable Recyclebot and the Wild West of Recycling</big> | ||
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* [[3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing]] | * [[3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing]] | ||
* [[Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties]] | * [[Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties]] | ||
* [[Mechanical Properties and Applications of Recycled Polycarbonate Particle Material Extrusion-Based Additive Manufacturing]] | |||
* [[Wood Furniture Waste-Based Recycled 3-D Printing Filament]] | * [[Wood Furniture Waste-Based Recycled 3-D Printing Filament]] | ||
* [[Solar powered distributed customized manufacturing]] | * [[Solar powered distributed customized manufacturing]] | ||
* [[Mechanical Properties of Ultraviolet-Assisted Paste Extrusion and Postextrusion Ultraviolet-Curing of Three-Dimensional Printed Biocomposites]] | |||
* [[Open Source Waste Plastic Granulator]] | |||
===Distributed Recycling LCA=== | ===Distributed Recycling LCA=== | ||
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===Literature Reviews=== | ===Literature Reviews=== | ||
[[image:gigarecycle.png|right| | [[image:gigarecycle.png|right|430px]] | ||
*[[Waste plastic extruder: literature review]] | *[[Waste plastic extruder: literature review]] | ||
*[[Life cycle analysis of polymer recycling literature review]] | *[[Life cycle analysis of polymer recycling literature review]] | ||
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===Externals=== | ===Externals=== | ||
* [http://www.economist.com/news/science-and-technology/21565577-new-manufacturing-technique-could-help-poor-countries-well-rich-ones Economist article on U. of Washington's HDPE boat], [http://open3dp.me.washington.edu/2012/07/woof-rocks-the-boat/ Oprn3dp.me] | * [http://www.economist.com/news/science-and-technology/21565577-new-manufacturing-technique-could-help-poor-countries-well-rich-ones Economist article on U. of Washington's HDPE boat], [http://open3dp.me.washington.edu/2012/07/woof-rocks-the-boat/ Oprn3dp.me] | ||
* https://ultimaker.com/en/resources/52444-ocean-plastic-community-project | |||
* Another possible solution - reusable containers [https://www.cnn.com/interactive/2019/01/business/loop-reusable-packaging-mission-ahead/index.html] | |||
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* Cruz, F., Lanza, S., Boudaoud, H., Hoppe, S., & Camargo, M. Polymer Recycling and Additive Manufacturing in an Open Source context: Optimization of processes and methods. [http://sffsymposium.engr.utexas.edu/sites/default/files/2015/2015-127-Cruz.pdf] | * Cruz, F., Lanza, S., Boudaoud, H., Hoppe, S., & Camargo, M. Polymer Recycling and Additive Manufacturing in an Open Source context: Optimization of processes and methods. [http://sffsymposium.engr.utexas.edu/sites/default/files/2015/2015-127-Cruz.pdf] | ||
* https:// | * Investigating Material Degradation through the Recycling of PLA in Additively Manufactured Parts [http://sffsymposium.engr.utexas.edu/sites/default/files/2017/Manuscripts/InvestigatingMaterialDegradationthroughtheRec.pdf] | ||
* Mohammed, M.I., Das, A., Gomez-Kervin, E., Wilson, D. and Gibson, I., EcoPrinting: Investigating the use of 100% recycled Acrylonitrile Butadiene Styrene (ABS) for Additive Manufacturing. [http://sffsymposium.engr.utexas.edu/sites/default/files/2017/Manuscripts/EcoprintingInvestigatingtheUseof100Recycle.pdf] | |||
* Kariz, M., Sernek, M., Obućina, M. and Kuzman, M.K., 2017. Effect of wood content in FDM filament on properties of 3D printed parts. Materials Today Communications. [https://www.sciencedirect.com/science/article/pii/S2352492817302635] | |||
* Kaynak, B., Spoerk, M., Shirole, A., Ziegler, W. and Sapkota, J., 2018. Polypropylene/Cellulose Composites for Material Extrusion Additive Manufacturing. Macromolecular Materials and Engineering, p.1800037. [https://onlinelibrary.wiley.com/doi/pdf/10.1002/mame.201800037] | |||
* O. Martikka et al., "Mechanical Properties of 3D-Printed Wood-Plastic Composites", Key Engineering Materials, Vol. 777, pp. 499-507, 2018 [https://www.scientific.net/KEM.777.499] | |||
* Yang, T.C., 2018. Effect of Extrusion Temperature on the Physico-Mechanical Properties of Unidirectional Wood Fiber-Reinforced Polylactic Acid Composite (WFRPC) Components Using Fused Deposition Modeling. Polymers, 10(9), p.976. [http://www.mdpi.com/2073-4360/10/9/976] | |||
[[Category:Polymer recycling]] | [[Category:Polymer recycling]] |
Revision as of 11:07, 14 October 2019
See Also
RepRapable Recyclebot and the Wild West of Recycling |
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Recycling Technology
- Recyclebot
- 3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing
- Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties
- Mechanical Properties and Applications of Recycled Polycarbonate Particle Material Extrusion-Based Additive Manufacturing
- Wood Furniture Waste-Based Recycled 3-D Printing Filament
- Solar powered distributed customized manufacturing
- Mechanical Properties of Ultraviolet-Assisted Paste Extrusion and Postextrusion Ultraviolet-Curing of Three-Dimensional Printed Biocomposites
- Open Source Waste Plastic Granulator
Distributed Recycling LCA
- Tightening the loop on the circular economy: Coupled distributed recycling and manufacturing with recyclebot and RepRap 3-D printing
- Energy Payback Time of a Solar Photovoltaic Powered Waste Plastic Recyclebot System
- Life cycle analysis of distributed recycling of post-consumer high density polyethylene for 3-D printing filament
- Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament
- Life cycle analysis of distributed polymer recycling
- Distributed recycling of post-consumer plastic waste in rural areas
- Ethical Filament Foundation
- Green Fab Lab Applications of Large-Area Waste Polymer-based Additive Manufacturing
- Systems Analysis for PET and Olefin Polymers in a Circular Economy
Literature Reviews
- Waste plastic extruder: literature review
- Life cycle analysis of polymer recycling literature review
- Solar powered recyclebot literature review
- Waste plastic extruder: literature review
- Life cycle analysis of polymer recycling literature review
Externals
- Economist article on U. of Washington's HDPE boat, Oprn3dp.me
- https://ultimaker.com/en/resources/52444-ocean-plastic-community-project
- Another possible solution - reusable containers [1]
- Cruz, F., Lanza, S., Boudaoud, H., Hoppe, S., & Camargo, M. Polymer Recycling and Additive Manufacturing in an Open Source context: Optimization of processes and methods. [2]
- Investigating Material Degradation through the Recycling of PLA in Additively Manufactured Parts [3]
- Mohammed, M.I., Das, A., Gomez-Kervin, E., Wilson, D. and Gibson, I., EcoPrinting: Investigating the use of 100% recycled Acrylonitrile Butadiene Styrene (ABS) for Additive Manufacturing. [4]
- Kariz, M., Sernek, M., Obućina, M. and Kuzman, M.K., 2017. Effect of wood content in FDM filament on properties of 3D printed parts. Materials Today Communications. [5]
- Kaynak, B., Spoerk, M., Shirole, A., Ziegler, W. and Sapkota, J., 2018. Polypropylene/Cellulose Composites for Material Extrusion Additive Manufacturing. Macromolecular Materials and Engineering, p.1800037. [6]
- O. Martikka et al., "Mechanical Properties of 3D-Printed Wood-Plastic Composites", Key Engineering Materials, Vol. 777, pp. 499-507, 2018 [7]
- Yang, T.C., 2018. Effect of Extrusion Temperature on the Physico-Mechanical Properties of Unidirectional Wood Fiber-Reinforced Polylactic Acid Composite (WFRPC) Components Using Fused Deposition Modeling. Polymers, 10(9), p.976. [8]