With more than 100 types of 3D printing materials and various 3D printing technologies for various applications.
BROADEST SCOPE OF 3D PRINTING TECHNOLOGIES
Perfect combination of 3D printing process, material and application expertise to integrate the right solution.
ENGINEERING SOFTWARE
Enable the creation of 3D data from scans, design and manufacturing and 3D inspection of production parts.
SLA 3D PRINTERS
Stereolithography (SLA) 3D printer has the highest quality and accuracy, and known as theGOLD standard in 3D printing. SLA is the first 3D printer, invented by Chuck Hull (3D Systems’ founder) with excellent resolution, surface finish and dimensional tolerance.
SLA givescost-efficient scale-upwith lowest unit cost production. Suitable formass productionand produces from small parts to large-whole partsin one printing process.
Selective Laser Sintering (SLS) is an additive manufacturing technique that uses a laser to fuse powder-based material layers, binding the material together to create a solid structure. SLS does not require a seperate feeder for support material because the part being printed is surrounded by unsintered powder at all times.
Large SLS build capacities paired with fast build times, high-density nesting, and no support structures help you produce tough and durable parts.
MultiJet Printing (MJP) is a material jetting printing process that uses piezo printhead technology to deposit materials layer-by-layer. These high-resolution 3D printers use a separate, meltable or dissolvable support material that can be completely removed in a virtually hands-free process, allowing even the most delicate and complex features to be thoroughly cleaned without damage.
With MJP plastic 3D printers, you’ll accelerate your product development, producing functional precision plastic, elastomeric, and multi-material composite parts.
Direct Metal Printing (DMP) oralso commonly known as Direct Metal Laser Sintering (DMLS), is an additive manufacturing technology that builds high quality complex metal parts from 3D CAD data. In the machine, a high precision laser is directed to metal powder particles to selectively build up thin horizontal metal layers one after the other. This cutting edge technology allows for the production of metal parts with challenging geometries, not possible using traditional subtractive or casting technologies.
