Bot: Automatski unos stranica |
m Bot: Automatska zamjena teksta (-{{Cite web +{{Citiranje weba) |
||
Redak 1: | Redak 1: | ||
<!--'''Selektivno lasersko topljenje'''-->[[File:Selective laser melting system schematic.jpg|thumb|453x453px|Selektivno lasersko topljenje]] | <!--'''Selektivno lasersko topljenje'''-->[[File:Selective laser melting system schematic.jpg|thumb|453x453px|Selektivno lasersko topljenje]] | ||
'''Selektivno lasersko topljenje''' ('''SLM'''), znano i kao '''direktno lasersko sinteriranje metala ''' ('''DMLS''') je jedna od tehnika brze izrade prototipa , odnosno [[3d ispisa]], ili aditivne izrade objekata u kojoj koncentrirana laserska zraka rastapa i spaja čestice metalnog praha.<ref>{{ | '''Selektivno lasersko topljenje''' ('''SLM'''), znano i kao '''direktno lasersko sinteriranje metala ''' ('''DMLS''') je jedna od tehnika brze izrade prototipa , odnosno [[3d ispisa]], ili aditivne izrade objekata u kojoj koncentrirana laserska zraka rastapa i spaja čestice metalnog praha.<ref>{{Citiranje weba|url=http://www.atlanticprecision.com/dmls/|title=DMLS {{!}} Direct Metal Laser Sintering {{!}} What Is DMLS?|website=www.atlanticprecision.com|language=en-US|access-date=2017-04-10}}</ref><ref>{{Citiranje weba|url=https://www.xometry.com/direct-metal-laser-sintering|title=Direct Metal Laser Sintering – Xometry|website=www.xometry.com|language=en|access-date=2018-01-18}}</ref> | ||
==Povijest== | ==Povijest== |
Inačica od 14. studeni 2021. u 22:15
Selektivno lasersko topljenje (SLM), znano i kao direktno lasersko sinteriranje metala (DMLS) je jedna od tehnika brze izrade prototipa , odnosno 3d ispisa, ili aditivne izrade objekata u kojoj koncentrirana laserska zraka rastapa i spaja čestice metalnog praha.[1][2]
Povijest
Selectivno lasersko topljenje razvijeno je na Fraunhofer institutu u Ahenu 1995. godine.
.[3]
Dodatna literatura
- S. Das and J. J. Beaman, “ Direct selective laser sintering of metals,” U.S. patent US6676892B2 (2004).
- W. Meiners, K. D. Wissenbach, and A. D. Gasser, “ Shaped body especially prototype or replacement part production,” U.S. patent DE19649849C1 (1998).
- ASTM F2792-10 Standard Terminology for Additive Manufacturing Technologies
- Abe, F., Costa Santos, E., Kitamura, Y., Osakada, K., Shiomi, M. 2003. Influence of forming conditions on the titanium model in rapid prototyping with the selective laser melting process. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 217 (1), pp. 119–126.
- Gibson, I. Rosen, D.W. and Stucker, B. (2010) Additive Manufacturing Technologies: Rapid Prototypingto Direct Digital Manufacturing. New York, Heidelberg, Dordrecht, London: Springer. ISBN
- Wohlers, T. Wohlers Report 2010: Additive Manufacturing State of the Industry: Annual World Wide Progress Report. Fort Collins: Wohlers Associates.
- Yap, C. Y.; Chua, C. K.; Dong, Z. L.; Liu, Z. H.; Zhang, D. Q.; Loh, L. E.; Sing, S. L. (prosinac 2015). "Review of selective laser melting: Materials and applications". Applied Physics Reviews 2 (4): 041101. doi:10.1063/1.4935926
Vanjske poveznice
Izvori
- ↑ "DMLS | Direct Metal Laser Sintering | What Is DMLS?" (engl.). http://www.atlanticprecision.com/dmls/ Pristupljeno 10. travanj 2017.
- ↑ "Direct Metal Laser Sintering – Xometry" (engl.). https://www.xometry.com/direct-metal-laser-sintering Pristupljeno 18. siječanj 2018.
- ↑ "DMLS vs SLM 3D Printing for Metal Manufacturing". https://www.element.com/nucleus/2016/06/29/dmls-vs-slm-3d-printing-for-metal-manufacturing Pristupljeno 15. studeni 2017.