How to cite this paper
Korotchenko, A., Khilkov, D., Tverskoy, M & Khilkova, A. (2020). Use of additive technologies for metal injection molding.Engineering Solid Mechanics, 8(2), 143-150.
Refrences
Amin, A. M., Ibrahim, M. H. I., Hashim, M. Y., Marwah, O. M. F., Othman, M. H., Johar, M. A., & Ng, C. H. (2017). Green density optimization of stainless steel powder via metal injection molding by Taguchi method. In MATEC Web of Conferences (Vol. 135, p. 00038). EDP Sciences.
Awad, A., Trenfield, S. J., Goyanes, A., Gaisford, S., & Basit, A. W. (2018). Reshaping drug development using 3D printing. Drug discovery today, 23(8), 1547–1555.
BASF (2003). Technical Information: Catamold®, on http://www.catamold.de/cm/internet/Catamold/en/content/Microsite/Catamold/Technische_Informationen_/Catamold_Specifications
BASF (2018). Ultrafuse 316LX: BASF’s ‘Catamold® on a spool’ presents opportunities for MIM producers. Powder Injection Moulding International, 12(3), 83–87.
Burkhardt, C., Freigassner, P., Weber, O., Imgrund, P., & Hampel, S. (2016). Fused filament fabrication (FFF) of 316L Green Parts for the MIM process. In European Congress and Exhibition on Powder Metallurgy. European PM Conference Proceedings (pp. 1–7). The European Powder Metallurgy Association.
Courtesy McKinsey & Company (2018). McKinsey report places MIM in top ten ‘technologies of the future. Powder Injection Moulding International, 12(2), 7.
Digital Metal (2019). What is additive manufacturing? Retrieved from https://digitalmetal.tech/home-digital-metal/am-metal-technologies/
Dizon, J. R. C., Espera, A. H., Chen, Q., & Advincula, R. C. (2018). Mechanical characterization of 3D-printed polymers. Additive Manufacturing, 20, 44–67.
ExOne (2016). Customised and low volume 316L stainless steel firearms components using Binder Jetting technology. Powder Injection Moulding International, 10(4), 69–72.
ExOne (2018). What is Binder Jetting? Retrieved from https://www.exone.com/Resources/Technology-Overview/What-is-Binder-Jetting
Gibson, M. A., Mykulowycz, N. M., Shim, J., Fontana, R., Schmitt, P., Roberts, A., & Myerberg, J. S. (2018). 3D printing metals like thermoplastics: Fused filament fabrication of metallic glasses. Materials Today, 21(7), 697–702.
Gonzalez-Gutierrez, J., Kukla, C., Schuschnigg, S., Duretek, I., Holzer, C., & Ausseninstitut, M. L. (2016). Fused Filament Fabrication for Metallic Parts. In 25. Leobener Kunststoff-Kolloquium: Kunststoffgerechte Bauteilentwicklungvom Werkstoff zum Produckt. Montanuniversitaet Leoben.
Gorodetskii, M. A., Nelyub, V. A., Malysheva, G. V., Shaulov, A. Y., & Berlin, A. A. (2018). Technology of Forming and the Properties of Reinforced Composites Based on an Inorganic Binder. Russian Metallurgy (Metally), 13, 1195–1198.
Hamidi, M. F. F. A., Harun, W. S. W., Khalil, N. Z., Ghani, S. A. C., & Azir, M. Z. (2017, October). Study of solvent debinding parameters for metal injection moulded 316L stainless steel. In IOP Conference Series: Materials Science and Engineering (vol. 257, no. 1, p. 012035). IOP Publishing.
Johnson, P. K. (2018). Metal injection molding trends-2018. International Journal of Powder Metallurgy, 54(1), 15.
Kong, X., Barriere, T., & Gelin, J. C. (2012). Determination of critical and optimal powder loadings for 316L fine stainless steel feedstocks for micro-powder injection molding. Journal of Materials Processing Technology, 212(11), 2173–2182.
Korotchenko, A.J., Kotomin, S.V., Tverskoy, M.V., Khilkov D.E., Shabeko A.A. (2018) The development of a new composition of the metal powder mixture to injection molding (MIM technology). Liteinoe proizvodstvo (Foundry, Technologies and Equipment), 2, 23–27.
Kukla, C., Duretek, I., Schuschnigg, S., Gonzalez-Gutierrez, J., & Holzer, C. (2016). Properties for PIM Feedstocks Used in Fused Filament Fabrication. World PM2016-AM-Deposition Technologies.
Kuznetsov, V. A., Shchedrin, A. V., & Korovin, A. V. (2018). Investigation of Cutting Processes and Surface of Plastic Deformation in Environment of LCTE with Nanosize Antifriction Particles. In International Conference on Industrial Engineering (pp. 1583–1589). Springer, Cham.
Lednev, V. N., Sdvizhenskii, P. A., Asyutin, R. D., Tretyakov, R. S., Grishin, M. Y., Stavertiy, A. Y., & Pershin, S. M. (2019). In situ multi-elemental analysis by laser induced breakdown spectroscopy in additive manufacturing. Additive Manufacturing, 25, 64–70.
Lengauer, W., Duretek, I., Fürst, M., Schwarz, V., Gonzalez-Gutierrez, J., Schuschnigg, S., & Morrison, V. (2019). Fabrication and properties of extrusion-based 3D-printed hardmetal and cermet components. International Journal of Refractory Metals and Hard Materials, 82, 141–149.
Lychev, S. A., Kostin, G. V., Koifman, K. G., & Lycheva, T. N. (2018, April). Modeling and optimization of layer-by-layer structures. In Journal of Physics: Conference Series (vol. 1009, no. 1, p. 012014). IOP Publishing.
Moritz, T., Müller-Köhn, A., Abel, J., Scheithauer, U. and Weingarten, S. (2018). Ceramic Injection Moulding and Ceramic Additive Manufacturing side by side: Opportunities and challenges. Powder Injection Moulding International, 12(4), 77–84.
Munsch, M., Schmidt-Lehr, M., & Wycisk, E. (2018). Metal additive manufacturing with sinter – based technologies. AmpowerGmbH&Co, vol. 3 (October).
Ngo, T. D., Kashani, A., Imbalzano, G., Nguyen, K. T., & Hui, D. (2018). Additive manufacturing (3D printing): A review of materials, methods, applications and challenges. Composites Part B: Engineering, 143, 172–196.
Petzoldt, F. (2018). Metal Injection Moulding in Europe — Technologocal trends and business situation. WORLDPM2018 Congress, Beijing, China, September 16–20.
Raymond, V. (2012). Metal injection molding development: modeling and numerical simulation of injection with experimental validation (Doctoral dissertation, École Polytechnique de Montréal).
Raza, M. R., Ahmad, F., Muhamad, N., Sulong, A. B., Omar, M. A., Akhtar, M. N., & Aslam, M. (2016). Effects of solid loading and cooling rate on the mechanical properties and corrosion behavior of powder injection molded 316 L stainless steel. Powder Technology, 289, 135–142.
Williams, B. (2018). WORLDPM2018 Congress: Global MIM markets show healthy growth. Powder Injection Moulding International, 12(4), 67–74.
Williams, N. (2018). Threat or opportunity? The MIM industry as a partner, a target and a market for metal AM. Powder Injection Moulding International, 12(4), 57–64.
Wolff, M., Mesterknecht, T., Bals, A., Ebel, T., & Willumeit-Römer, R. (2019). FFF of Mg-Alloys for Biomedical Application. In Magnesium Technology 2019 (pp. 43–49). Springer, Cham.
Wu, G., Langrana, N. A., Sadanji, R., & Danforth, S. (2002). Solid freeform fabrication of metal components using fused deposition of metals. Materials & Design, 23(1), 97–105.
Zheng, R., Tanner, R. I., & Fan, X. J. (2011). Injection molding: integration of theory and modeling methods. Springer Science & Business Media, Berlin.
Awad, A., Trenfield, S. J., Goyanes, A., Gaisford, S., & Basit, A. W. (2018). Reshaping drug development using 3D printing. Drug discovery today, 23(8), 1547–1555.
BASF (2003). Technical Information: Catamold®, on http://www.catamold.de/cm/internet/Catamold/en/content/Microsite/Catamold/Technische_Informationen_/Catamold_Specifications
BASF (2018). Ultrafuse 316LX: BASF’s ‘Catamold® on a spool’ presents opportunities for MIM producers. Powder Injection Moulding International, 12(3), 83–87.
Burkhardt, C., Freigassner, P., Weber, O., Imgrund, P., & Hampel, S. (2016). Fused filament fabrication (FFF) of 316L Green Parts for the MIM process. In European Congress and Exhibition on Powder Metallurgy. European PM Conference Proceedings (pp. 1–7). The European Powder Metallurgy Association.
Courtesy McKinsey & Company (2018). McKinsey report places MIM in top ten ‘technologies of the future. Powder Injection Moulding International, 12(2), 7.
Digital Metal (2019). What is additive manufacturing? Retrieved from https://digitalmetal.tech/home-digital-metal/am-metal-technologies/
Dizon, J. R. C., Espera, A. H., Chen, Q., & Advincula, R. C. (2018). Mechanical characterization of 3D-printed polymers. Additive Manufacturing, 20, 44–67.
ExOne (2016). Customised and low volume 316L stainless steel firearms components using Binder Jetting technology. Powder Injection Moulding International, 10(4), 69–72.
ExOne (2018). What is Binder Jetting? Retrieved from https://www.exone.com/Resources/Technology-Overview/What-is-Binder-Jetting
Gibson, M. A., Mykulowycz, N. M., Shim, J., Fontana, R., Schmitt, P., Roberts, A., & Myerberg, J. S. (2018). 3D printing metals like thermoplastics: Fused filament fabrication of metallic glasses. Materials Today, 21(7), 697–702.
Gonzalez-Gutierrez, J., Kukla, C., Schuschnigg, S., Duretek, I., Holzer, C., & Ausseninstitut, M. L. (2016). Fused Filament Fabrication for Metallic Parts. In 25. Leobener Kunststoff-Kolloquium: Kunststoffgerechte Bauteilentwicklungvom Werkstoff zum Produckt. Montanuniversitaet Leoben.
Gorodetskii, M. A., Nelyub, V. A., Malysheva, G. V., Shaulov, A. Y., & Berlin, A. A. (2018). Technology of Forming and the Properties of Reinforced Composites Based on an Inorganic Binder. Russian Metallurgy (Metally), 13, 1195–1198.
Hamidi, M. F. F. A., Harun, W. S. W., Khalil, N. Z., Ghani, S. A. C., & Azir, M. Z. (2017, October). Study of solvent debinding parameters for metal injection moulded 316L stainless steel. In IOP Conference Series: Materials Science and Engineering (vol. 257, no. 1, p. 012035). IOP Publishing.
Johnson, P. K. (2018). Metal injection molding trends-2018. International Journal of Powder Metallurgy, 54(1), 15.
Kong, X., Barriere, T., & Gelin, J. C. (2012). Determination of critical and optimal powder loadings for 316L fine stainless steel feedstocks for micro-powder injection molding. Journal of Materials Processing Technology, 212(11), 2173–2182.
Korotchenko, A.J., Kotomin, S.V., Tverskoy, M.V., Khilkov D.E., Shabeko A.A. (2018) The development of a new composition of the metal powder mixture to injection molding (MIM technology). Liteinoe proizvodstvo (Foundry, Technologies and Equipment), 2, 23–27.
Kukla, C., Duretek, I., Schuschnigg, S., Gonzalez-Gutierrez, J., & Holzer, C. (2016). Properties for PIM Feedstocks Used in Fused Filament Fabrication. World PM2016-AM-Deposition Technologies.
Kuznetsov, V. A., Shchedrin, A. V., & Korovin, A. V. (2018). Investigation of Cutting Processes and Surface of Plastic Deformation in Environment of LCTE with Nanosize Antifriction Particles. In International Conference on Industrial Engineering (pp. 1583–1589). Springer, Cham.
Lednev, V. N., Sdvizhenskii, P. A., Asyutin, R. D., Tretyakov, R. S., Grishin, M. Y., Stavertiy, A. Y., & Pershin, S. M. (2019). In situ multi-elemental analysis by laser induced breakdown spectroscopy in additive manufacturing. Additive Manufacturing, 25, 64–70.
Lengauer, W., Duretek, I., Fürst, M., Schwarz, V., Gonzalez-Gutierrez, J., Schuschnigg, S., & Morrison, V. (2019). Fabrication and properties of extrusion-based 3D-printed hardmetal and cermet components. International Journal of Refractory Metals and Hard Materials, 82, 141–149.
Lychev, S. A., Kostin, G. V., Koifman, K. G., & Lycheva, T. N. (2018, April). Modeling and optimization of layer-by-layer structures. In Journal of Physics: Conference Series (vol. 1009, no. 1, p. 012014). IOP Publishing.
Moritz, T., Müller-Köhn, A., Abel, J., Scheithauer, U. and Weingarten, S. (2018). Ceramic Injection Moulding and Ceramic Additive Manufacturing side by side: Opportunities and challenges. Powder Injection Moulding International, 12(4), 77–84.
Munsch, M., Schmidt-Lehr, M., & Wycisk, E. (2018). Metal additive manufacturing with sinter – based technologies. AmpowerGmbH&Co, vol. 3 (October).
Ngo, T. D., Kashani, A., Imbalzano, G., Nguyen, K. T., & Hui, D. (2018). Additive manufacturing (3D printing): A review of materials, methods, applications and challenges. Composites Part B: Engineering, 143, 172–196.
Petzoldt, F. (2018). Metal Injection Moulding in Europe — Technologocal trends and business situation. WORLDPM2018 Congress, Beijing, China, September 16–20.
Raymond, V. (2012). Metal injection molding development: modeling and numerical simulation of injection with experimental validation (Doctoral dissertation, École Polytechnique de Montréal).
Raza, M. R., Ahmad, F., Muhamad, N., Sulong, A. B., Omar, M. A., Akhtar, M. N., & Aslam, M. (2016). Effects of solid loading and cooling rate on the mechanical properties and corrosion behavior of powder injection molded 316 L stainless steel. Powder Technology, 289, 135–142.
Williams, B. (2018). WORLDPM2018 Congress: Global MIM markets show healthy growth. Powder Injection Moulding International, 12(4), 67–74.
Williams, N. (2018). Threat or opportunity? The MIM industry as a partner, a target and a market for metal AM. Powder Injection Moulding International, 12(4), 57–64.
Wolff, M., Mesterknecht, T., Bals, A., Ebel, T., & Willumeit-Römer, R. (2019). FFF of Mg-Alloys for Biomedical Application. In Magnesium Technology 2019 (pp. 43–49). Springer, Cham.
Wu, G., Langrana, N. A., Sadanji, R., & Danforth, S. (2002). Solid freeform fabrication of metal components using fused deposition of metals. Materials & Design, 23(1), 97–105.
Zheng, R., Tanner, R. I., & Fan, X. J. (2011). Injection molding: integration of theory and modeling methods. Springer Science & Business Media, Berlin.