Articles

All articles  |  Recent articles

Droplet-Based Additive Manufacturing of Hard Metal Components by Thermoplastic 3D Printing (T3DP)

U. Scheithauer, J. Pötschke, S. Weingarten, E. Schwarzer, A. Vornberger, T. Moritz, A. Michaelis

Fraunhofer IKTS, Institute for Ceramic Technologies and Systems, Winterbergstrasse 28, D-01277 Dresden, Germany

received November 5, 2016, received in revised form December 25, 2016, accepted January 31, 2017

Vol. 8, No. 1, Pages 155-160   DOI: 10.4416/JCST2016-00104

Abstract

Thermoplastic 3D printing (T3DP) is an Additive Manufacturing (AM) technology that cannot only be used for producing ceramic, metal or multi-material components, but for the Additive Manufacturing of hard metal or cemented carbide components, too. This is possible because the technology combines the precise deposition of small droplets of molten thermoplastic hard-metal-containing suspensions and an increasing viscosity resulting from a cooling process as curing mechanism.

This paper demonstrates the suitability of the T3DP-process for the AM of hard metal compounds. Using WC-Co suspensions with a solid content of 67 vol%, single droplets were deposited and first components manufactured. After de-binding and sintering, completely dense samples were achieved. Zero porosity was determined in the microstructures analyzed by means of FESEM and optical microscopy.

Keywords

Additive Manufacturing, Thermoplastic 3D printing, hard metal, cemented carbide, WC-Co

References

¹ ASTM-Standard F2792 – 12a: Standard Terminology for Additive Manufacturing Technologies. March 1, 2012, ASTM International Distributed under ASTM license by Beuth publisher.

² Zong, G., Wu, Y., Tran, N., Lee, I., Bourell, D.L., Beaman, J.J., Marcus, H.L.: Direct selective laser sintering of high temperature materials, solid freeform fabrication symposium, Austin, 72 – 85, (1992).

³ Laoui, T., Froyen, L., Kruth, J.-P.: Effect of mechanical alloying on selective laser sintering of WC-9Co powder, Powder Metall., 42, [3], 203 – 205, (2000).

⁴ Kruth, J.P., Levy, G., Klocke, F., Childs, T.: Consolidation phenomena in laser and powder-bed based layer manufacturing. CIRP Annals, 56, [2], 730 – 759, (2007).

⁵ Gu, D., Shen, Y.: Influencement of reinforcement weight fraction on microstructure and properties of submicron WC-Co_p/Cu bulk MMCs prepared by direct laser sintering, J. Alloy. Compd., 431, [1 – 2], 112 – 120, (2000).

⁶ Gu, D., Shen, Y.: WC-Co particulate reinforcing cu matrix composites produced by direct laser sintering, Mater. Lett., 60, [29 – 30], 3664 – 3668, (2006).

⁷ Kumar, S.: Manufacturing of WC-Co moulds using SLS machine, J. Mater. Process. Tech., 209, [8], 3840 – 3848, (2009).

⁸ Kelley, A.: Tungsten carbide-cobalt by three dimensional printing, Master Thesis, MIT, 1998.

⁹ Kernan, B.D., Sachs, E.M., Oliveira, M.A., Cima, M.J.: Three-dimensional printing of tungsten carbide-10 wt% cobalt using a cobalt oxide precursor, Int. J. Refract. Met. H., 25, [1], 82 – 94, (2007).

¹⁰ Scheithauer, U., Schwarzer, E., Poitzsch, C., Richter, H.-J., Moritz, T., Stelter, M.: Method for producing ceramic and/or metal components. WO-Patent 2015/177128 A1, (2015).

¹¹ Scheithauer, U., Schwarzer, E., Richter, H.-J., Moritz, T.: Thermoplastic 3D printing – an Additive Manufacturing method for producing dense ceramics, JACT, 1 – 6, (2014).

¹² Scheithauer, U., Bergner, A., Schwarzer, E., Richter, H.-J., Moritz, T.: Studies on Thermoplastic 3D Printing of steel-zirconia composites, J. Mat. Res., 29, [17], 1931 – 1940, (2014).

¹³ Scheithauer, U., Slawik, T., Schwarzer, E., Richter, H.-J., Moritz, T., Michaelis, A.: Additive Manufacturing of metal-ceramic-composites by Thermoplastic 3D-printing, J. Ceram. Sci. Tech., 06, [02], 125 – 132, (2015).

¹⁴ Scheithauer, U., Schwarzer, E., Härtel, A., Richter, H.-J., Moritz, T., Michaelis, A.: Processing of thermoplastic suspensions for Additive Manufacturing of ceramic- and metal-ceramic-composites by Thermoplastic 3D-Printing (T3DP), 11^th International Conference on Ceramic Materials and Components for Energy and Environmental Applications, Ceramic Transactions, 258, The American Ceramic Society, (2016).

¹⁵ Mezger, T.G.: The Rheology Manual (in German). 5^th Edition in german. Vincentz Network, Hanover, 2016.

Copyright

Göller Verlag GmbH