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GROUNDBREAKING NANOPARTICLE JETTING™ TECHNOLOGY

XJet’s NanoParticle Jetting™ technology is redefining the metal and ceramic additive manufacturing (AM) arenas. The patented inkjet technology enables the production of metal and ceramic AM parts of the highest quality – featuring unprecedented levels of detailing, finish and accuracy – without compromising throughput or build time.

About Us

NPJ TECHNOLOGY IN ACTION

NPJ for Metal AM Video

NPJ for Ceramic AM

3 DIMENSIONS OF INNOVATION

The culmination of many years of intensive research, XJet’s disruptive NPJ technology features “three dimensions” of innovation:

DETAIL

Thanks to its unique inkjet technology and use of nanoparticles in ultrathin layers, NPJ technology enables superfine details, smooth surfaces and high accuracy at unprecedented levels.

DISPERSION

Liquid suspensions for build and support materials are delivered in sealed cartridges, offering unrivaled user safety and operational simplicity.

DESIGN FREEDOM

With support materials removed effortlessly, manufacturers can easily create finished parts of virtually any geometry, including those with tiny holes, thin walls, challenging arches and sharp edges.

Leveraging these innovations, manufacturers can produce dense, high-quality and high-definition metal and ceramic parts.

How It Works

LOADING

Process:

Solid nanoparticles in a liquid suspension are delivered within convenient sealed cartridges.

Advantage:

Build and support cartridges are loaded easily by hand into XJet AM systems, eliminating the need for hard-to-handle hazardous powders.

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JETTING

Process:

From thousands of nozzles, system printheads simultaneously jet ultrafine drops of both build and support materials onto the system build tray.

Advantage:

Multiple materials (build and support) can be printed simultaneously, as in 2D printing.

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EVAPORATION

Process:

Inside the system’s build envelope, high temperatures cause the liquid “jacket” around the nanoparticles to evaporate, leaving dense ultrafine layers of the build material.

Advantage:

Dense 3D printed parts are created with virtually the same chemical composition of traditionally made parts.

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SINTERING

Process:

Produced parts undergo a simple and standard sintering process. Support materials are easily removed.

Advantage:

Easy and clean process enables smooth integration into existing operations, and short and simple post-processing.

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KEY BENEFITS

Unlimited design flexibility
Unrivaled geometrical and physical properties
Unprecedented simplicity and safety