Schedule a free consultation with our engineer and order sample parts.

Schedule a free consultation

HP Multi Jet Fusion technology

HP Multi Jet Fusion technology is an innovative 3D printing method that allows rapid and accurate manufacturing of durable parts with excellent surface finish.

It is experiencing rapid global expansion and increasingly preferred by businesses as a substitute for injection moulding.

Wydruki 3D w technologii HP MJF

Advantages of the technology

Why is Multi Jet Fusion chosen by numerous companies?

Industrial durability

The resistance properties of MJF-printed components are comparable to those manufactured through injection moulding.

Consistent dimensions

Printed parts exhibit a precision of +/-0.3 mm for sizes up to 100 mm and +/-0.3% for sizes exceeding 100 mm.

Enhanced productivity

HP's devices enable the production of up to 1,200 unique parts per day, with delivery to customers within 3 days of ordering.

Complex
designs

Multi Jet Fusion eliminates the need for supports, allowing for the creation of parts with diverse geometric configurations.

Cost-effectiveness

3D printing facilitates low-volume production without incurring additional expenses associated with new injection moulds.

Versatile applications

Utilizing PA12 material, MJF-printed parts are suitable for various environments, including water or contact with the skin.

Smooth surface

Prints possess a slightly textured yet pleasing tactile finish, which can be further refined if desired.

A global leader

Multi Jet Fusion is the fastest-growing additive technology worldwide, endorsed by numerous industrial enterprises.
Techno
Drukarka 3D HP MJF 5210

Multi Jet Fusion's operating principle

See how HP technology works

By utilising polymer powder and an exceptional printing technique, Multi Jet Fusion enables us to attain micron-level precision and reduce production time by a factor of ten compared to conventional methods.

From the idea to the final product in just 3 days

7 steps to 3D printing:

Make an appointment for a free online consultation

Find out what you can gain by implementing 3D printing solutions in your company.
I agree with the Privacy Policy..

Applications

Examples of 3D printing applications:

Witness the utilisation of 3D printing by diverse factories and companies in the production of novel devices and even prostheses.

Technical
specification

Multi Jet Fusion

Standard lead time

3-5 days

Dimensional accuracy

+/-0.3mm ≤ 100mm
+/-0.3% >100mm

Layer thickness

80 microns

Minimum wall thickness

1 mm

Maximum build dimensions

380 x 284 x 380 mm

The material used in printing

Poliamid PA12

This robust thermoplastic material offers exceptional dimensional precision, making it well-suited for a wide range of industries, including machinery and medical sectors. PA12 exhibits excellent chemical resistance to oils, greases, aliphatic hydrocarbons, and bases. Moreover, it meets the necessary standards for skin contact, adhering to the requirements of REACH, RoHS, and PAH regulations.

Part density

1.01 g/cm3

standard ASTM D792

Tensile strength - XY

48 MPa/6960 psi

standard ASTM D638

Tensile strength - Z

48 MPa/6960 psi

standard ASTM D638

Tensile modulus - XY

1700 MPa/245 ksi

standard ASTM D638

Tensile modulus - Z

1800 MPa/260 ksi

standard ASTM D638

Elongation at break - XY

20%

standard ASTM D638

Elongation at break - Z

15%

standard ASTM D638

Heat deflection temperature 1
Heat deflection temperature 2

175°C
95°C

standard ASTM D648
@ 0.45 MPa
@ 1.82 MPa

The range of finish options

See how your parts can be finished

Piaskowanie z grafitem wydruku 3D w technologii MJF

Sanding with graphite

Piaskowanie bez grafitu wydruku 3D w technologii MJF

Sanding without graphite

Polyshot wydruku 3D w technologii MJF

Polyshot surfacing

Obróbka chemiczna

Vapor fusing

Dyeing

Thread inserts

FAQ

Our experts provide insights and answers to common questions regarding HP's Multi Jet Fusion (MJF) technology, recognized as the fastest-growing additive manufacturing method globally.

What is the difference between HP MJF and SLS technology?
These technologies differ in the process of fusing successive layers. In MJF, we use ink and UV light, while in SLS technology, fusion is achieved through a laser beam. This makes the MJF process more efficient, and parts do not absorb water.
Do HP MJF parts absorb water?
No, the surface of MJF parts is sealed, preventing water absorption, making them suitable for use in contact with water.
Can the parts be dyed to any RAL color of your choice?
Yes, we can paint the parts in any RAL color of your choice; however, this significantly increases the lead time and cost of the project.
How durable are the parts compared to injection-molded polyamide parts?
The durability of 3D-printed parts using polyamide materials can vary but generally falls slightly below that of injection-molded polyamide parts due to differences in manufacturing processes.

Newsletter - Discover the potential of 3D printing

Practical applications of 3D printing every month in your email

By signing up for the Newsletter, I agree to the Privacy Policy.