All About Multi Jet Fusion (MJF) 3D Printing

Multi Jet Fusion (MJF) 3D printing is a high-volume, high-accuracy additive manufacturing technology developed by HP Additive. HP released the MJF printer for commercial use in 2016. MJF is a relative newcomer to the additive manufacturing field when compared to older technologies like SLA (Stereolithography), FDM (Fused Deposition Modeling), and SLS (Selective Laser Sintering). Multi Jet Fusion works by applying a fusing and detailing agent to a thin layer of powder in the shape of the part's cross-section at a specific layer height. A heat source then fuses the powder into the final part. The print bed moves down by the thickness of one layer, typically 80 microns, and the process is repeated.

MJF is used both for functional prototypes and for end-use parts in the aerospace, medical, and consumer products industries. MJF can be used to print watertight electronics enclosures, under-the-hood hardware for cars, and custom medical equipment like prosthetics and dental models.

This article will describe how MJF works, the materials used, the advantages, and the minimum feature sizes possible. 

What Is Multi Jet Fusion 3D Printing?

MJF (Multi Jet Fusion) is a powder-bed 3D printing technology that was developed by HP in 2016. HP Multi Jet Fusion creates 3D printed parts using powdered nylon, polypropylene, or TPU (Thermoplastic Polyurethane) as the raw material. Infrared heat lamps acting with fusing and detailing agents densify the powder into a final part.

How Does MJF 3D Printing Work?

MJF 3D printing works by applying a thin layer of the material onto the print bed using a recoater. The powder is then heated to just beneath its sintering temperature. Next, a fusing agent is applied to the powder in the shape of the part cross-section. This is applied using multiple nozzles which jet the fusing and detailing agent onto the powder. The fusing agent helps absorb heat during a later process step. A detailing agent is applied to the edges of the part to help create crisper and sharper edges. The detailing agent prevents the molten plastic from bleeding past the part edges. An infrared heat source then passes over the material and sinters the plastic particles together wherever the fusing agent is applied. The infographic in Figure 1 below details the process:

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Multi jet fusion printing process.

Image Credit: HP Multi Jet Fusion White Paper

Who Manufactures MJF Printers?

MJF printers are manufactured by HP (Hewlett Packard) Additive. HP is a well-known manufacturer of 2D inkjet and laser printers and copiers. This experience positioned HP to be able to leverage its hardware development knowledge in creating  HP Multi Jet Fusion 3D printing technology.

How Was MJF Created?

MJF 3D printers were first released in 2016. The technology leveraged  existing precision inkjet technology developed by HP for use in standard 2D printers. This know-how was then combined with powder-based printing techniques. MJF printed parts are unique in their use of inkjet technology adapted to 3D printing of plastic powders, combined with shape and surface quality control provided by fusing and detailing agents.

What Materials Are MJF Printed Parts Made Of?

MJF 3D printed parts are most often made from PA12, a common grade of nylon. MJF printers can also print elastomeric parts. The full range of available materials is listed below:

  1. PA11(Nylon): PA11 is more flexible and tougher than PA12, and as such is better for end-use parts.
  2. PA12 (Nylon): PA12 has good crack resistance and has the lowest moisture absorption of all the polyamides. Glass-filled variants are also available. PA12 is generally well suited to functional prototypes.
  3. PP (Polypropylene): Ideal for functional prototypes that can mimic the performance of injection-molded polypropylene.
  4. TPU01 (Thermoplastic Polyurethane): This material offers a good balance between flexibility and shock absorption, and can be used to create high-resolution features. 
  5. TPU M95A (Thermoplastic Polyurethane): This elastomeric material has excellent abrasion resistance and high elongation at its break strength. Ideal for end-use parts like seals and shoe insoles as well as functional prototypes.
  6. TPA (Thermoplastic Polyamide): This elastomeric material is a lightweight, highly flexible elastomer. TPA has high elongation in low-temperature environments.

What Are the Common Applications for MJF 3D Printing?

MJF printing can be used for functional prototypes as well as end-use parts. Some notable applications are listed below:

  1. Aircraft rudder trim systems
  2. Custom prosthetics
  3. Dental implant molds
  4. Robot end-arm tooling
  5. Drone frames
  6. Automotive door-support hinges
  7. Flexible lattice structures

Why Should You Use Multi Jet Fusion 3D Printing?

Use Multi Jet Fusion 3D printing when you need a technology that is fast and can produce highly detailed, dimensionally accurate features. Additionally, MJF is developed by HP, which has decades of experience in durable hardware development and end-user technical support.

Why Is MJF Excellent for the Production of End-Use Parts?

MJF 3D printing is excellent for the production of end-use parts since it is a high-volume additive manufacturing technology that was developed especially for this purpose. MJF makes use of nylon and polypropylene powders as raw materials. Both are engineered thermoplastics used in a number of industrial applications. MJF parts also have isotropic properties which is not always the case with other printing technologies such as FDM (Fused Deposition Modeling) and SLS (Selective Laser Sintering). MJF is able to produce highly detailed small features. The use of a detailing agent also ensures a smooth, albeit matte, outer surface finish. 

What Is MJF's Dimensional Accuracy?

MJF 3D printing can produce parts that only deviate by ± 0.15 % from nominal dimensions with a lower limit of 0.3 mm, after which, the dimensional accuracy is not defined nor guaranteed by the machine manufacturers. 

What Is MJF's Maximum Construction Size?

The largest of the HP MJF 3D printers is the HP Jet Fusion 5200 series. This machine has a usable build volume of 380 x 284 x 380 mm. Unlike many other 3D printing technologies, MJF can stack parts in the entire printer volume, making maximum use of the available space. This is because MJF parts do not need complex support structures. The powder itself supports the part. In the case of large hollow parts, it may be beneficial to include permanent internal supports for mechanical strength.

What Are the Tiniest Details That MJF Can Print?

MJF 3D printers can print parts with features as small as 0.1 mm in width. Table 1 below lists some additional minimum feature sizes possible with MJF printing:

Table 1: MJF Minimum Feature Sizes
Property Minimum Size

Layer height

Minimum Size

80  μm


Minimum slit between walls

Minimum Size

0.5 mm


Minimum hole diameter (part thickness of 1mm)

Minimum Size

0.5 mm


Minimum shaft diameter (part height of 10 mm)

Minimum Size

0.5 mm


Minimum feature size

Minimum Size

0.1 mm


Minimum font size for debossed or embossed text

Minimum Size

6 pt

Table Credit: HP MJF Handbook

Is Multi Jet Fusion Binder Jetting?

Multi jet fusion is not the same as binder jetting. The processes may appear similar, but multi-jet fusion uses heat to sinter powders together whereas binder jetting is room-temperature printing technology. Binder jetting produces parts with inferior mechanical properties compared to MJF.

What Are the Advantages of MJF?

MJF is a highly capable 3D printing technology. Some of its key advantages are listed below:

  1. MJF parts are highly isotropic, with 98% isotropy achievable.
  2. MJF powder is reusable. Up to 80% of the unused material present in the build chamber during printing can be reused. The remaining 20% may consist of powder that has been oxidized and degraded due to the heat in the printing zone. The detailing agent evaporates during the printing process.
  3. MJF printers have removable build volumes. This means that the completed parts can be removed from the printer to allow for cooling while another build volume can be installed to maintain production continuity and to enable high volume production. 
  4. No support structures are needed during printing, as the unsintered powder behaves as the part’s support structure.

Are MJF 3D Printed Parts Water Resistant?

Multi-jet fusion parts can be water resistant if designed correctly. HP has tested the IP (Ingress Protection) rating of their commonly used raw materials and has achieved IP66 and IP67 waterproof ratings with them.

The first digit in the IP rating number indicates that MJF parts demonstrate complete protection against the ingress of dust. The second digit, a 6 in this case, means that MJF parts resist water intrusion, while a value of 7 means that parts do not absorb water even when immersed.

What Are the Differences Between MJF and SLS 3D Printing?

Both MJF and SLS are powder bed fusion printing methods. However, in the MJF process, a print head applies a fusing and detailing agent to the base powder; then the powder is sintered with an infrared energy source wherever the fusing agent was applied. SLS, on the other hand, uses a laser to fuse the powder. The SLS printing process requires support materials to stabilize the part during printing, while MJF does not. For more information, see our guide on SLS vs. MJF 3D Printing.


This article provided a summary of Multi Jet Fusion (MJF) 3D Printing, including how it works, the applications, materials used, and feature sizes that may be achieved. To learn more about multi jet fusion and how it can benefit your unique application, contact a Xometry representative.

Xometry provides a wide range of manufacturing capabilities, including 3D printing and other value-added services for all of your prototyping and production needs. Visit our website to learn more or to request a free, no-obligation quote. 


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Team Xometry
This article was written by various Xometry contributors. Xometry is a leading resource on manufacturing with CNC machining, sheet metal fabrication, 3D printing, injection molding, urethane casting, and more.

All About Multi Jet Fusion (MJF) 3D Printing