HP Multi Jet Fusion (MJF) 3D Printing Service
Quality prototypes and production parts. Free shipping on all US orders. ISO 9001:2015, ISO 13485, and AS9100D certified.
HP MJF 3D Printing Service
HP Multi Jet Fusion (MJF) is a powerful 3D printing technology that produces highly accurate and durable parts at fast speeds, especially compared to other powder bed fusion technologies like selective laser sintering (SLS) or direct metal laser sintering (DMLS). Due to their affordability, speed, and high resolution, multi jet fusion technology can be used for end-use, low-volume production, rapid prototyping, or as a bridge process to injection molding. MJF allows engineers to get a feel for how parts will perform with minimal upfront costs.
Xometry's HP MJF printing service has a recommended build envelope of 15” x 11” x 15”.
Upload your 3D CAD file to get instant pricing with lead time options. If needed, you can easily select a different process or material to get an updated quote in real-time. Xometry offers free shipping on all 3D printing orders originating in the US.
MJF Printing Materials
| Material Name | Description | Shore Hardness | Elongation at Break (XY, ZX %) | Impact Strength (XY, ZX kJ/m²) | Data Sheet |
|---|---|---|---|---|---|
Material Name Nylon 11 | Description HP 3D High Reusability PA 11 | Shore Hardness 80D | Elongation at Break (XY, ZX %) 55%, 40% | Impact Strength (XY, ZX kJ/m²) 6 kJ/m², 5 kJ/m² | Data Sheet |
Material Name Nylon 12 | Description HP 3D High Reusability PA 12 | Shore Hardness 80D | Elongation at Break (XY, ZX %) 20%, 15% | Impact Strength (XY, ZX kJ/m²) 3.6 kJ/m², 3.5 kJ/m² | Data Sheet |
Material Name Nylon 12, Glass-Filled | Description HP 3D High Reusability | Shore Hardness 82D | Elongation at Break (XY, ZX %) 10% | Impact Strength (XY, ZX kJ/m²) 3 kJ/m² | Data Sheet |
Material Name Polypropylene (PP) | Description HP 3D High Reusability PP | Shore Hardness 70D (est.) | Elongation at Break (XY, ZX %) 20% | Impact Strength (XY, ZX kJ/m²) 3.5 kJ/m², 3.0 kJ/m² | Data Sheet |
Material Name TPU 88A | Description BASF Ultrasint™ TPU01 | Shore Hardness 88A | Elongation at Break (XY, ZX %) 220%, 120% | Impact Strength (XY, ZX kJ/m²) Partial break, No break | Data Sheet |
Resources from HP
A useful summary of the HP MJF materials portfolio and how they compare to each other.
The aim of this white paper is to illustrate the achievable mechanical properties of HP 3D Printing materials.
The aim of this whitepaper is to provide information on the dimensional capabilities that can be achieved with HP MJF.
An interactive handbook with HP MJF design best practices, material information, and other resources to explore.
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Applications for HP MJF
Concept Models
The speed and versatility of MJF let product developers create tough and detailed physical snapshots of their designs.
Rapid Prototyping
MJF can be used to create fully-functional prototypes, complete with moving parts, as well as all-in-one assemblies.
Direct Digital Manufacturing
The low price and speed of Multi Jet Fusion make it an ideal way to build large quantities of discrete or customized parts.
Vapor Smoothing HP Multi Jet Parts
Xometry can vapor smooth 3D printed parts to achieve an exceptional surface finish. Vapor smoothing, performed through AMT PostPro3D's technology, is a batch-based automated smoothing process that achieves a high-quality surface. Combined with the low costs of HP MJF technology, this surface finish can make parts competitive with injection molding from both form and function. Vapor smoothing creates a uniform, sealed surface with a semi-gloss appearance. The enhanced surface also increases the overall performance of 3D printed parts including ultimate tensile strength, yield at flex, and percent elongation to break. Vapor smoothing can also be applied to selective laser sintering, and fused deposition modeling parts for both rigid plastics and elastomers.
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Advantages of MJF 3D Printing Process
While there are many benefits to MJF printing, a few truly stand out. For starters, the standard build parameters are optimized for the best density. The result is that Multi Jet Fusion parts are watertight.
If you like SLS but want to produce higher quantities for small-batch production runs, Multi Jet Fusion is the way to go. MJF printers have the ability to print multiple parts simultaneously across the entire build volume means you can print parts at rates up to 10X faster than SLS or other 3D printing processes. Also, Multi Jet Fusion delivers more balanced mechanical properties across the X, Y, and Z axes compared to SLS.
If you’re interested in injection molding for your project, it’s always a good idea to get a 3D printed “test” part before making the investment in metal molds. While SLA is a great printing process for extremely detailed and high-resolution prints, the UV cured resins are not as tough as traditional thermoplastics. Prints begin to degrade when exposed to UV light and moisture. Multi Jet Fusion, on the other hand, can produce extremely accurate prints while also maintaining the structural durability of traditional thermoplastics, especially when using glass-filled nylon. This makes it a great process for testing fit and functionality before taking your project to injection molding.
- High quality parts
- ISO 9001:2015, ISO 13485 and AS9100D certified | ITAR Registered
- Free shipping on all US 3D printing orders, no minimums
HP MJF General Tolerances
| Description | Tolerance Notes |
|---|---|
Description General Tolerances | Tolerance Notes +/- 0.012” up to 4" is typical, plus +/- 0.003” for every inch thereafter is typical. See all of our HP MJF manufacturing standards. |
Description Build Area | Tolerance Notes Build area up to 15 x 11 x 15" (14 x 11 x 13" is the recommended usable area). |
Description Minimum Feature Size | Tolerance Notes 0.020" (0.040" recommended) or greater. |
Description Layer Thickness | Tolerance Notes 0.004" |
Description HP Dimensional Accuracy Report | Tolerance Notes |
This table depicts the general tolerances for Multi Jet Fusion. Stresses during the build and other geometry considerations may cause deviation in tolerances and flatness. Part designs with thicker geometries, flat or broad parts, and parts with uneven wall thicknesses may be prone to significant deviations or warp. Improved tolerances may be possible with a manual quote review, after successful completion of a prototype build, and must be approved on a case-by-case basis. General tolerances apply before secondary finishing or post-processing unless otherwise specified. Please check out Xometry's Manufacturing Standards for more information on tolerances per process.
Overview: What is HP Multi Jet Fusion?
The Basics of HP MJF
HP Multi Jet Fusion is a powerful 3D printing technology that produces highly accurate and durable parts that are capable of being used directly in end-use, low-volume production, or for rapid prototyping. Since the process uses well-established 2D printing ink-jetting, it has remarkably fast layer times compared to other powder bed fusion technologies.
How Multi Jet Fusion 3D Printing Works
Like all powder-based 3D printing processes, multi jet fusion technology builds parts layer by layer, using a fusing agent and heat to set each layer before moving onto the next. In the more traditional processes — such as Selective Laser Sintering (SLS), Stereolithography(SLA), or Direct Metal Laser Sintering (DMLS)— each part is imaged, layer by layer, with a single laser beam. HP’s Multi Jet Fusion works a bit more like a traditional ink-jet printer with a printhead that deposits the material, and then a fusing agent, across the entire build plate in one pass, allowing for the printing of multiple parts simultaneously.
The Benefits of HP’s Multi Jet Fusion 3D Printing Process
While there are many benefits to HP jet fusion, a few truly stand out. For starters, the standard build parameters are optimized for best density. The result is that Multi Jet Fusion parts are watertight.
If you like SLS but want to produce higher quantities for small-batch production runs, Multi Jet Fusion is the way to go. The ability to print multiple parts simultaneously across the entire build volume means you can print parts at rates up to 10X faster than SLS or other 3D printing processes. Also, Multi Jet Fusion delivers more balanced mechanical properties across the X, Y, and Z axes than SLS.
If you’re interested in injection molding for your project, it’s always a good idea to get a 3D printed “test” part before making the investment in metal molds. While SLA is a great 3D printing process for extremely detailed and high-resolution prints, the UV-cured resins are not as tough as traditional thermoplastics. Prints begin to degrade when exposed to UV light and moisture.
On the other hand, Multi Jet Fusion can produce accurate prints while also maintaining the structural durability of traditional thermoplastics, especially when using glass-filled nylon. This makes it an excellent process for testing fit and functionality before taking your project to injection molding.
Why Choose Xometry for HP MJF?
Endless Options
Choose from millions of possible combinations of materials, finishes, tolerances, markings, and certifications for your order.
Easy to Use
Get your parts delivered right to your door without the hassle of sourcing, project management, logistics, or shipping.
High Quality
We are ISO 9001:2015, ISO 13485 and AS9100D certified.