JOURNAL BROWSE
Search
Advanced SearchSearch Tips
The Current State, Outcome and Vision of Additive Manufacturing
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
  • Journal title : Journal of Welding and Joining
  • Volume 33, Issue 6,  2015, pp.1-5
  • Publisher : The Korean Welding and Joining Society
  • DOI : 10.5781/JWJ.2015.33.6.1
 Title & Authors
The Current State, Outcome and Vision of Additive Manufacturing
Terner, Mathieu;
  PDF(new window)
 Abstract
Additive Manufacturing defines the fabrication of objects by successive consolidation of materials, layer by layer, according to a three-dimensional design. The numerous technologies available today were recently standardized into seven categories based on the general method. Each technology has its own set of advantages and limitations. Though it very much depends on the field of application, major assets of additive manufacturing compared to conventional processing routes are the ability to readily offer complexity (in terms of intricate shape and customization) and significant reduction of waste. On the other hand, additive manufacturing often suffers of relatively low production rates. Anyhow, additive manufacturing technologies is being given outstanding attention. In particular, metal additive manufacturing emerges as of great significance in industries like aerospace, automotive and tooling. The trend progresses toward full production of high value finished products.
 Keywords
Additive manufacturing;Rapid manufacturing;Three-dimensional printing;3D Printing;Free-form fabrication;Direct digital manufacturing;
 Language
English
 Cited by
 References
1.
ASTM F2792, Standard Terminology for Additive Manufacturing Technologies, ASTM International, http://www.astm.org/Standards/F2792.htm

2.
T. Wohlers. Wohlers Report 2014, 3D Printing and Additive Manufacturing State of the Industry, Annual worldwide progress report, Wohlers Associates (2014)

3.
W. Gao, Y. Zhang, D. Ramanujan, K. Ramani, Y. Chen, C.B. Williams, C.C.L. Wang, Y.C. Shin, S. Zhang, P.D. Zavattieri, The status, challenges, and future of additive manufacturing in engineering, Computer-Aided Design (2015)

4.
C. Hull, Apparatus for production of three-dimensional objects by stereolithography, US Patent 4,575,330, March 1986

5.
C. Deckard. Method and apparatus for producing parts by selective sintering, US Patent 4,863,538, September 1989

6.
S. Crump, Apparatus and method creating three-dimensional objects, US Patent 5,121,329, June 1992

7.
E. Sachs, J. Haggerty, M. Cima, P. Williams, Three-dimensional printing techniques, US Patent 5,204,055, April 1993

8.
I. Gibson, D.W. Rosen, B. Stucker, Additive Manufacturing Technologies - Rapid Prototyping to Direct Digital Manufacturing, Springer (2010), 473

9.
D.T. Pham, R.S. Gault. A comparison of rapid prototyping technologies, International Journal of Machine Tools & Manufacture 38 (1998) 1257-1287 crossref(new window)

10.
A. Gebhardt, Understanding Additive Manufacturing, Rapid Prototyping - Rapid Tooling - Rapid Manufacturing, Hanser (2011), 168 pages

11.
D. Chen, S. Heyer, S. Ibbotson, K. Salonitis, J.G.Steingrimsson, S. Thiede, Direct digital manufacturing, definition, evolution and sustainability implications, Journal of Cleaner Production, (2015)

12.
http://www.astm.org/Standards/additive-manufacturingtechnology-standards.html

13.
M. Baumers, P. Dickens, C. Tuck, R. Hague, The cost of additive manufacturing: machine productivity, economies of scale and technology-push, Technological Forecasting & Social Change, (2015)

14.
G.T. Gutowski, M.S. Branham, J.B. Dahmus, A.J. Jones, A. Thiriez, D.P. Sekulic, Thermodynamic Analysis of Resources Used in Manufacturing Processes, Environmental Science & Technology, 43 (2009), 1584-1590 crossref(new window)

15.
B. Vayre, F. Vignat, F. Villeneuve, Identification on some design key parameters for additive manufacturing, application on Electron Beam Melting, Procedia CIRP, 7 (2013), 264-269 crossref(new window)

16.
B.P. Conner, G.P. Manogharan, A.N. Martof, L.M. Rodomsky, C.M. Rodomsky, D.C. Jordan, J.W. Limperos, Making sense of 3-D printing, Creating a map of additive manufacturing products and services, Additive Manufacturing, 1 (4) (2014), 64-76

17.
D.S. Thomas, S.W. Gilbert, Costs and Cost Effectiveness of Additive Manufacturing - A Literature Review and Discussion, National Institute of Standards and Technology, U.S. Department of Commerce, (2014), 89, http://dx.doi.org/10.6028/NIST.SP.1176 crossref(new window)

18.
http://www.rolandberger.com/media/pdf/Roland_Berger_Additive_Manufacturing_20131129.pdf

19.
http://www.rolandberger.com/media/pdf/Roland_Berger_Additive_Manufacturing_Opportunities_in_a_digitalized_ production_20150714.pdf

20.
http://www.economist.com/node/21552901

21.
http://www.3dsystems.com/

22.
http://www.stratasys.com/

23.
http://www.eos.info/en

24.
http://envisiontec.com/

25.
http://www.stage.slm-solutions.com/index.php?index_en

26.
http://www.arcam.com/

27.
National Institute of Standards and Technology, Measurement Science Roadmap for Metal-based Additive Manufacturing, May 2013, 86

28.
D.L. Bourell, M.C. Leu, D.W. Rosen, Roadmap for Additive Manufacturing - Identifying the Future of Freeform Processing, The University of Texas at Austin (2009), 102

29.
J. Gausemeier, N. Echterhoff, M. Kokoschka, M. Wall, Thinking ahead the Future of Additive Manufacturing - Analysis of Promising Industries, Heinz Nixdorf Institute, University of Paderborn, (2011), 103

30.
http://www.amaze-project.eu/

31.
Additive Manufacturing in FP7 and Horizon 2020, Report from the EC Workshop on Additive Manufacturing held on 18 June 2014, http://www.rm-platform.com/linkdoc/ EC%20AM%20Workshop%20Report%202014.pdf

32.
https://americamakes.us/

33.
A. Wiesner, D. Schwarze. Multi-Laser Selective Laser Melting, 8th International Conference on Photonic Technologies LANE, (2014)

34.
https://www.hoganas.com/en/business-areas/digital-metal/ powders/

35.
http://smt.sandvik.com/en/products/metal-powder/

36.
https://www.atimetals.com/Pages/default.aspx

37.
http://www.tls-technik.de/index.html

38.
SmarTech Markets Publisher, Additive manufacturing opportunities in the metal powders industry, A 10-year market forecast, (2014)