Abstract
Additive manufacturing with 3-D printers may be a key technology enabler for entrepreneurs seeking to use disruptive innovations such as business models utilizing distributed manufacturing. Unlike centralized manufacturing, distributed manufacturing makes the parts and products (the prints) at (or closer to) the source of the demand, cutting out much of the traditional supply chain. Although many expect 3-D printing to take off at the household level and previous work has shown significant returns for those choosing to do so, there are still significant barriers to entry for typical consumers. Our analysis demonstrates that for an individual to make an abnormally high return on their investments in 3-D printers, they must serve others to achieve high utilization rates. The impetus to do so is created by a service that can undercut traditionally manufactured products due to affordability and customizability. Low-cost, open-source 3-D printers are now priced within range of individual entrepreneurs who can take advantage of the long tail of consumers with highly varied interests. The margin advantage, net present value, and return on investment (ROI) analysis provided herein could form the basis of thousands of new small-business ventures in the coming years.
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The Economist (2012) A third industrial revolution. April 21, 2012
Blua A (2013) Radio free europe radio library “A new industrial revolution: the brave new world of 3D printing” http://www.rferl.org/content/printing-3d-new-industrial-revolution/24949765.html Accessed 20 January 2014
Gibbs S (2013) Metal 3D printing and six key shifts in the 'second industrial revolution'—the guardian http://www.theguardian.com/technology/2013/dec/09/metal-3-D-printing-key-developments-second-industrial-revolution Accessed 20 January 2014
Vinodh S, Sundararaj G, Devadasan SR, Kuttalingam D, Rajanayagam D (2009) Agility through rapid prototyping technology in a manufacturing environment using a 3D printer. J Manuf Technol Manag 20(7):1023–1041
Wohlers Associates (2014) Wohlers report 2014: additive manufacturing and 3-D printing state of the industry annual worldwide progress report. Wohlers Associates, Fort Collins, Co
Make (2013) Make: ultimate guide to 3D printing, Oreilly, Winter 2013
Jones R, Haufe P, Sells E, Iravani P, Olliver V, Palmer C, Bowyer A (2011) RepRap—the replicating rapid prototyper. Robotica 29(1):177–191
Wittbrodt BT, Glover AG, Laureto J, Anzalone GC, Oppliger D, Irwin JL, Pearce JM (2013) Life-cycle economic analysis of distributed manufacturing with open-source 3-D printers. Mechatronics 23:713–726
DeVor RE, Kapoor SG, Cao J, Ehmann KF (2012) Transforming the landscape of manufacturing: distributed manufacturing based on desktop manufacturing (DM)2. J Electron Packag 134(4):61801
Pearce JM, Blair CM, Laciak KJ, Andrews R, Nosrat A, Zelenika-Zovko I (2010) 3-D printing of open source appropriate technologies for self-directed sustainable development. J Sustain Dev 3(4):17–29
Sells E, Smith Z, Bailard S, Bowyer A, Olliver V (2010) Reprap: the replicating rapid prototyper: maximizing customizability by breeding the means of production. In Piller FT, Tseng MM handbook of research in mass customization and personalization: strategies and concepts (Vol. 1). World Scientific
Pearce JM (2012) Building research equipment with free, open-source hardware. Science 337(6100):1303–1304
Pearce JM (2014) Open-source lab: how to build your own hardware and reduce research costs, Elsevier
Lücking TH, Sambale F, Beutel S, Scheper T (2014) 3D-printed individual labware in biosciences by rapid prototyping: a proof of principle. Engineering in Life Sciences
Gross BC, Erkal JL, Lockwood SY, Chen C, Spence DM (2014) Evaluation of 3d printing and its potential impact on biotechnology and the chemical sciences. Anal Chem 86(7):3240–3253
Pearce JM (2014) Laboratory equipment: cut costs with open-source hardware. Nature 505:618
Herrmann KH, Gärtner C, Güllmar D, Krämer M, Reichenbach JR (2014) 3D printing of MRI compatible components: why every MRI research group should have a low-budget 3D printer. Med Eng Phys 36(10):1373–1380
Wijnen B, Hunt EJ, Anzalone GC, Pearce JM (2014) Open-source syringe pump library. PLoS ONE 9(9):e107216
Gonzalez-Gomez J, Valero-Gomez A, Prieto-Moreno A, Abderrahim M (2012) A new open source 3-D-printable mobile robotic platform for education. In Advances in autonomous mini robots (pp. 49-62). Springer Berlin Heidelberg
Zhang C, Anzalone NC, Faria RP, Pearce JM (2013) Open-source 3-D-printable optics equipment. PLoS ONE 8(3):e59840
Leigh SJ, Bradley RJ, Purssell CP, Billson DR, Hutchins DA (2012) A simple, low-cost conductive composite material for 3D printing of electronic sensors. PLoS One 7(11):e49365
Anzalone GC, Glover AG, Pearce JM (2013) Open-source colorimeter. Sensors 13(4):5338–5346
Redlich T, Wulfsberg JP, Bruhns FL (2008) Virtual factory for customized open production. Presented at the 15th International Product Development Management Conference, Tagungsband
Martens T, Mears L, Dotson M, Graham M, Sanger P (2011) Use of fused deposition modeling of polyphenylsulfone for centrifugal casting of polyurethane: material, surface, and process considerations. J Manuf Sci Eng 133(5):051003
Baechler C, DeVuono M, Pearce JM (2013) Distributed recycling of waste polymer into RepRap feedstock. Rapid Protyping J 19(2):118–125
Mireles J, Kim H, Lee H, Espalin D, Medina F, MacDonald E, Wicker R (2013) Development of a fused deposition modeling system for low melting temperature metal alloys. J Electron Packag 135(1):011008
Anzalone GC, Zhang C, Wijnen B, Sanders PG, Pearce JM (2013) Low-cost open-source 3-D metal printing. IEEE Access 1:803–810
Shapeways (2014) http://www.shapeways.com/ Accessed 20 January 2014
Makexyz, Find a 3D printer near you. http://www.makexyz.com/ Accessed 20 January 2014
MOST Delta RepRap. http://www.appropedia.org/Delta_Build_Overview:MOST Accessed 20 January 2014
Christensen CM, Bower JL (1996) Customer power, strategic investment, and the failure of leading firms. Strateg Manag J 17(3):197–218
MTU-MOST (2014) https://github.com/mtu-most/most-PMPY Accessed 13 October 2014
U.S. Energy Information Administration, Table 5.6.A Average retail price of electricity to ultimate customers by end use sector, EIA-Electricty Data. [Online]. Available: http://www.eia.gov/electricity/monthly/epm_table_grapher.cfm?t=epmt_5_06_a. Accessed: 25 February 2013
RepRap Wiki (2014) http://reprap.org/wiki/Printing_Material_Suppliers. Accessed 20 January 2014
MarketWatch (2012) Retail markups and the power of Amazon. http://blogs.marketwatch.com/great-columnist/2012/10/15/retail-markups-and-the-power-of-amazon/?mod=google_news_blog Accessed 20 January 2014
Pearce JM, Dekenberger D, Zielonka H (2009) Accelerating applied sustainability by utilizing return on investment for energy conservation measures. Int J Energy Environ Econ 17(1):61–80
Van der Wijst N, Thurik R (1993) Determinants of small firm debt ratios: an analysis of retail panel data. Small Bus Econ 5(1):55–65
Newell R, Pizer W (2001) Discounting the benefits of climate change mitigation: how much do uncertain rates increase valuation? Economic Technical Series, Pew center on Global Climate Change: Arlington VA
Kreiger MA, Pearce JM (2013) Environmental impacts of distributed manufacturing from 3-D printing of polymer components and products. MRS Online Proceedings 1492, mrsf12-1492-g01-02
Kreiger M, Pearce JM (2013) Environmental life cycle analysis of distributed 3-D printing and conventional manufacturing of polymer products. ACS Sustain Chem Eng 1(12):1511–1519
Branker K, Pathak MJM, Pearce JM (2011) A review of solar photovoltaic levelized cost of electricity. Renew Sustain Energy Rev 15:4470–4482
King DL, Babasola A, Rozario J, Pearce JM (2014) Development of mobile solar photovoltaic powered open-source 3-D printers for distributed customized manufacturing in off-grid communities. Challenges Sustain 2(1):18–27
Pearce J (2002) Photovoltaics—a path to sustainable futures. Futures 34(7):663–674
Pearce JM (2012) The case for open source appropriate technology. Environ Dev Sustain 14:425–431
Hoyle W (2013) Designing the future, tech for trade. http://techfortrade.org/news/designing-the-future/ Accessed 20 January 2014
Feeley SR, Wijnen B, Pearce JM (2014) Evaluation of potential fair trade standards for an ethical 3-D printing filament. J Sustain Dev 7(5):1–12
Engstrom NF (2013) 3-D printing and product liability: identifying the obstacles. U Pa L Rev Online 162:35–83
Safety Standard for Children's Toys (2015) http://www.cpsc.gov/en/Business--Manufacturing/Business-Education/Toy-Safety/FAQs-Safety-Standard-for-Childrens-Toys/ Accessed 20 January
Bradshaw S, Bowyer A, Haufe P (2010) The intellectual property implications of low-cost 3D printing. ScriptEd 7(1):5–31
Pearce JM (2015) A novel approach to obviousness: an algorithm for identifying prior art concerning 3-D printing material. World Patent Inf. doi:10.1016/j.wpi.2015.07.003
Hunt EJ, Zhang C, Anzalone N, Pearce JM (2015) Polymer recycling codes for distributed manufacturing with 3-D printers. Resour Conserv Recycl 97:24–30
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Appendix 1
Case 2. MOST Delta RepRap BOM and total cost table (XLS 18 kb)
Appendix 2
Case 3. Quad Delta RepRap MOST Delta RepRap BOM and total cost table (XLS 18 kb)
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Laplume, A., Anzalone, G.C. & Pearce, J.M. Open-source, self-replicating 3-D printer factory for small-business manufacturing. Int J Adv Manuf Technol 85, 633–642 (2016). https://doi.org/10.1007/s00170-015-7970-9
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DOI: https://doi.org/10.1007/s00170-015-7970-9