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2018 | OriginalPaper | Buchkapitel

1. What Is Additive Manufacturing? Additive Systems, Processes and Materials

verfasst von : Mojtaba Khorram Niaki, Fabio Nonino

Erschienen in: The Management of Additive Manufacturing

Verlag: Springer International Publishing

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Abstract

This chapter introduces the current status of additive technologies. It initially discusses various terminologies used by researchers and practitioners to define this emerging technology, in order to reach the most appropriate phrase.

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Literatur
Ahn, S. H., Montero, M., Odell, D., Roundy, S., & Wright, P. K. (2002). Anisotropic material properties of fused deposition modeling ABS. Rapid prototyping Journal, 8(4), 248–257.CrossRef
Anitha, R., Arunachalam, S., & Radhakrishnan, P. (2001). Critical parameters influencing the quality of prototypes in fused deposition modelling. Journal of Materials Processing Technology, 118(1), 385–388.CrossRef
Bak, D. (2003). Rapid prototyping or rapid production? 3D printing processes move industry towards the latter. Assembly Automation, 23(4), 340–345.CrossRef
Berman, B. (2012). 3-D printing: The new industrial revolution. Business horizons, 55(2), 155–162.CrossRef
Bogers, M., Hadar, R., & Bilberg, A. (2016). Additive manufacturing for consumer-centric business models: Implications for supply chains in consumer goods manufacturing. Technological Forecasting and Social Change, 102, 225–239.CrossRef
Chua, C. K., Chou, S. M., & Wong, T. S. (1998). A study of the state-of-the-art rapid prototyping technologies. The International Journal of Advanced Manufacturing Technology, 14(2), 146–152.CrossRef
Cotteleer, M., & Joyce, J. (2014). 3D opportunity: Additive manufacturing paths to performance, innovation, and growth. Deloitte Review, 14, 5–19.
Deckers, J., Shahzad, K., Vleugels, J., & Kruth, J. P. (2012). Isostatic pressing assisted indirect selective laser sintering of alumina components. Rapid Prototyping Journal, 18(5), 409–419.CrossRef
Derby, B., & Reis, N. (2003). Inkjet printing of highly loaded particulate suspensions. Mrs. Bulletin, 28(11), 815–818.CrossRef
Gibson, I., Rosen, D. W., & Stucker, B. (2010). Additive manufacturing technologies. New York: Springer.CrossRef
Goodridge, R. D., Dalgarno, K. W., & Wood, D. J. (2006). Indirect selective laser sintering of an apatite-mullite glass-ceramic for potential use in bone replacement applications. In. Proceedings of the Institution of Mechanical Engineers. Part H: Journal of Engineering in Medicine, 220(1), 57–68.CrossRef
Goodridge, R. D., Tuck, C. J., & Hague, R. J. M. (2012). Laser sintering of polyamides and other polymers. Progress in Materials Science, 57(2), 229–267.CrossRef
Guo, N., & Leu, M. C. (2013). Additive manufacturing: Technology, applications and research needs. Frontiers of Mechanical Engineering, 8(3), 215–243.CrossRef
Harrysson, O. L., Cansizoglu, O., Marcellin-Little, D. J., Cormier, D. R., & West, H. A. (2008). Direct metal fabrication of titanium implants with tailored materials and mechanical properties using electron beam melting technology. Materials Science and Engineering: C, 28(3), 366–373.CrossRef
Hopkinson, N., & Dickens, P. (2001). Rapid prototyping for direct manufacture. Rapid Prototyping Journal, 7(4), 197–202.CrossRef
Hopkinson, N., Hague, R., & Dickens, P. (Eds.). (2006). Rapid manufacturing: an industrial revolution for the digital age. Wiley.
Hull, C. W. (1990). U.S. Patent No. 4,929,402. Washington, DC: U.S. Patent and Trademark Office.
Khorram Niaki, M., & Nonino, F. (2017a). Additive manufacturing management: A review and future research agenda. International Journal of Production Research, 55(5), 1419–1439.
Khorram Niaki, M., & Nonino, F. (2017b). Impact of additive manufacturing on business competitiveness: A multiple case study. Journal of Manufacturing Technology Management, 28(1), 56–74.
Kruth, J. P., Wang, X., Laoui, T., & Froyen, L. (2003). Lasers and materials in selective laser sintering. Assembly Automation, 23(4), 357–371.CrossRef
Levy, G. N., Schindel, R., & Kruth, J. P. (2003). Rapid manufacturing and rapid tooling with layer manufacturing (LM) technologies, state of the art and future perspectives. CIRP Annals-Manufacturing Technology, 52(2), 589–609.CrossRef
Liu, J., & Li, L. (2004). In-time motion adjustment in laser cladding manufacturing process for improving dimensional accuracy and surface finish of the formed part. Optics & Laser Technology, 36(6), 477–483.CrossRef
Liu, Q., Leu, M. C., & Schmitt, S. M. (2006). Rapid prototyping in dentistry: technology and application. International Journal of Advanced Manufacturing Technology, 29(3–4), 317–335.
Mansour, S., & Hague, R. (2003). Impact of rapid manufacturing on design for manufacture for injection molding. In. Proceedings of the Institution of Mechanical Engineers. Part B: Journal of Engineering Manufacture, 217(4), 453–461.CrossRef
Monzón, M. D., Ortega, Z., Martínez, A., & Ortega, F. (2015). Standardization in additive manufacturing: activities carried out by international organizations and projects. The International Journal of Advanced Manufacturing Technology, 76(5–8), 1111–1121.CrossRef
Mueller, B., & Kochan, D. (1999). Laminated object manufacturing for rapid tooling and patternmaking in foundry industry. Computers in Industry, 39(1), 47–53.CrossRef
Mumtaz, K. A., & Hopkinson, N. (2010). Selective laser melting of thin wall parts using pulse shaping. Journal of Materials Processing Technology, 210(2), 279–287.CrossRef
Murphy, E. J., Ansel, R. E., & Krajewski, J. J. (1989). U.S. Patent No. 4,844,144. Washington, DC: U.S. Patent and Trademark Office.
NASA/Jet Propulsion Laboratory. Accessed in 2017 from: https://​www.​jpl.​nasa.​gov/​.​
Nee, A. Y. C., Fuh, J. Y. H., & Miyazawa, T. (2001). On the improvement of the stereolithography (SL) process. Journal of Materials Processing Technology, 113(1), 262–268.CrossRef
Petrovic, V., Vicente Haro Gonzalez, J., Jorda Ferrando, O., Delgado Gordillo, J., Ramon Blasco Puchades, J., & Portoles Grinan, L. (2011). Additive layered manufacturing: Sectors of industrial application shown through case studies. International Journal of Production Research, 49(4), 1061–1079.
Rosochowski, A., & Matuszak, A. (2000). Rapid tooling: The state of the art. Journal of Materials Processing Technology, 106(1), 191–198.CrossRef
Shi, Y., Li, Z., Sun, H., Huang, S., & Zeng, F. (2004). Effect of the properties of the polymer materials on the quality of selective laser sintering parts. In. Proceedings of the Institution of Mechanical Engineers. Part L: Journal of Materials Design and Applications, 218(3), 247–252.
Singh, S., Ramakrishna, S., & Singh, R. (2017). Material issues in additive manufacturing: A review. Journal of Manufacturing Processes, 25, 185–200.
Wang, J., & Shaw, L. L. (2005). Rheological and extrusion behaviour of dental porcelain slurries for rapid prototyping applications. Materials Science and Engineering: A, 397(1), 314–321.
West, J., & Kuk, G. (2014). Proprietary benefits from open communities: How MakerBot leveraged thingiverse in 3D Printing. Available at SSRN 2544970.
Wohlers, T. (2007). Wohlers report 2007: State of the industry: Annual worldwide progress report. USA: Wohlers Associates Inc. ISBN 0-9754429-3-7.
Wohlers, T. (2014). Wohlers report 2014: 3D Printing and additive manufacturing state of the industry. Fort Collins, CO, USA: Wohlers Associates Inc.
Metadaten
Titel
What Is Additive Manufacturing? Additive Systems, Processes and Materials
verfasst von
Mojtaba Khorram Niaki
Fabio Nonino
Copyright-Jahr
2018
Buch
The Management of Additive Manufacturing

Print ISBN: 978-3-319-56308-4

Electronic ISBN: 978-3-319-56309-1

Copyright-Jahr: 2018

DOI
https://doi.org/10.1007/978-3-319-56309-1_1

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