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Multi-jet fusion

Multi Jet Fusion (MJF) is a type of 3D printing technology developed by Hewlett-Packard (HP). It works by depositing powder in layers, spraying it with a binder and release agent, and then bonding it together with heat for each layer pass. Similar to other types of 3D printing, the technology is particularly suitable for prototyping in product development, small-scale production, or parts that need to be customized.[1]

MJF is marketed as having strength comparable to injection molding.[2] The most common material in MJF is nylon (PA12 and PA11), but the technology can be used with many other thermoplastic materials, including elastomers[3][4][5] ("rubber materials") and fibre-reinforced composites.[6][7] The technology is claimed to be more cost-effective at large scale compared to other types of 3D printing.[8]

History

In 2013, HP announced that they would enter the 3D printing market in 2014.[9] In 2016, they introduced Multi Jet Fusion.[10] In 2021, it was claimed that HP held around 100 patents related to MJF technology.[11]

Operation

The printer distributes a powder (usually nylon) in thin layers over a build surface, and between each layer, two types of liquids, namely a fusing agent and a detailing agent, are sprayed onto the newly applied layer of powder using an inkjet.[12] After the liquids are applied, a heat source (often infrared light) passes over the layer, which bonds the powder particles together into a solid layer. The next layer of powder is then applied on top of the previous one, and the process is repeated without the need for additional support structures since the surrounding powder provides the necessary support.[13] Finally, the parts must be cooled and cleaned of excess powder. The result is claimed to often have better surface quality straight from the printer compared to fused filament fabrication (FFF).[14]

See also

References

  1. ^ "Current Status and Prospects of Multi-Jet Fusion (MJF) Based 3D Printing Technology | November 2021, DOI:10.1115/IMECE2021-73547, Conference: ASME 2021 International Mechanical Engineering Congress and Exposition". 2021.
  2. ^ "Multi Jet Fusion (MJF) | 3D Printing Technology | Materialise".
  3. ^ Davies, Sam (2020-10-27). "HP & Evonik unveil thermoplastic elastomer for Jet Fusion 3D printing technology".
  4. ^ i-SOLIDS (2024-03-20). "Flexible Materials with HP Multi-Jet Fusion (MJF) Technology".
  5. ^ "Evonik and HP develop 3D-printable thermoplastic elastomer to enable breakthrough applications for HP's Multi Jet Fusion technology".
  6. ^ "Design and development of glass-reinforced polymeric composites using multi jet fusion process". 2023. doi:10.32657/10356/173286. Retrieved 2025-02-01. {{cite journal}}: Cite journal requires |journal= (help)
  7. ^ "Investigation of the mechanical properties of polyimide fiber/polyamide 12 composites printed by Multi Jet Fusion, DOI:10.1080/17452759.2023.2246032, License: CC BY-NC 4.0". 2023.
  8. ^ "Multi Jet Fusion (MJF) 3D Printing Technology Overview".
  9. ^ Newman, John (2013-10-24). "HP Plans to Enter the 3D Printing Market by 2014".
  10. ^ Yusuf, Bulent (2016-05-17). "HP Launches Jet Fusion 3D Printers at Rapid 2016". All3DP. Retrieved 2025-02-01.
  11. ^ Freeman, Alex (2021-08-05). "HP 3D and Multi Jet Fusion Technology | TPM".
  12. ^ WRIGHT, Jacob Tyler; Kasperchik, Vladek (2016-11-03). "Three-dimensional (3d) printing" (WO2016175748A1). Retrieved 2025-02-01. {{cite journal}}: Cite journal requires |journal= (help); Missing |author1= (help)
  13. ^ Chen, Ailin; Fitzhugh, Andrew; Hartman, Aja; Kaiser, Pierre; Nwaogwugwu, Ihuoma; Zeng, Jun; Gu, Grace X. (2023-02-20). "Multi Jet Fusion printed lattice materials: characterization and prediction of mechanical performance". Materials Advances. 4 (4): 1030–1040. doi:10.1039/D2MA00972B. ISSN 2633-5409. Retrieved 2025-02-01. {{cite journal}}: Missing |author1= (help)
  14. ^ Baresh, Mark (2023-04-25). "MJF vs FDM: What is the difference ?". All 3D Labs. Retrieved 2025-02-01.

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