Learn about the FAST/SPS
An eco-responsible technology

Norimat HAS DEVELOPED a GROUND-BREAKING PROCESS WHICH ENHANCES FAST/SPS TECHNOLOGY

We combine more than 20 years of Field Assisted Sintering Technology, Spark Plasma Sintering (FAST/SPS) engineering and production experience with an innovative FEA model for simple and complex shapes, to enable the manufacture of your most critical and innovative parts with outstanding mechanical characteristics, in record time.

By sharing its technology and its expertise in Field Assisted Sintering Technology, Spark Plasma Sintering (FAST/SPS), Norimat supports your product development and optimization, to achieve the complex geometries and material performance demanded by your requirements.

FROM POWDER TO FINAL PARTS IN LESS THAN 1 HOUR

We can easily work to your requirements to develop custom geometries and material assemblies using Field Assisted Sintering Technology, Spark Plasma Sintering (FAST/SPS) technology.

CUSTOMISABLE PRODUCT

AIDED BY STATE OF THE ART MODELLING, Our Experts transform your powders
inTO a FULLY DENSE product WITH THE GEOMETRY and properties YOU NEED

AIDED BY STATE OF THE ART MODELLING, Our Experts transform your powders
inTO a FULLY DENSE product WITH THE GEOMETRY and properties YOU NEED

Ultra High Temperature Ceramic & Field Assisted Sintering Technologie/Spark Plasma Sintering

Let's revolutionize the industry: 3D printing of ready-to-use and densified UHTC (SiC, B4C, ZrB2, Si3N4) parts using Field Assisted Sintering Technology!
Discover the future of advanced part manufacturing, ready to be used directly after the hybrid process of 3D printing and FAST/SPS densification. With the introduction of Ultra-High Temperature Ceramics (UHTC) and FieldAssistedSinteringTechnology, we are witnessing a true industrial revolution.
Imagine being able to produce complex parts directly Near Net Shape with impressive accuracy, resulting in high-quality finished components.
But that's not all! Field Assisted Sintering Technology enables the densification of these 3D-printed parts in a single step. This hybrid manufacturing technology produces dense parts with over 99% density, ready to withstand the most critical loads and stresses.
The impact of ready-to-use 3D printed parts goes beyond just the manufacturing industry. It has significant implications in medicine, aerospace, and many other industries. By reducing logistical costs, production time, and enabling optimal customization, this technology opens new possibilities and sets new standards.
At Norimat, we are contributing to this revolution by offering specialized solutions in 3D printing with UHTC and hybridization with Field Assisted Sintering Technology.
Together, let's shape the future of manufacturing and push the limits of 3D printing for ready-to-use parts!

Norimat SHARES ITS UNIQUE EXPERTISE AND WILL
SUPPORTS YOU from R&D to the production of your parts.

Advantages of Field Assisted Sintering Technology, Spark Plasma Sintering (FAST/SPS)
An eco-responsible technology

NO powder waste: All the powder used in the Field Assisted Sintering Technology, Spark Plasma Sintering (FAST/SPS) process is densified

By our ground-breaking FEA model, Norimat customizes its offer according to your needs. Our PhD and engineer teams can advise and guide you through the choice of the best materials and designs for your parts, for a tailor-made solution.

Improved mechanical performance

The Field Assisted Sintering Technology, Spark Plasma Sintering (FAST/SPS) process prevents grain growth within the materials. In addition to the pressure and temperature applied, the materials maintain a fine microstructure and can reach a density of 99.5%.

Material waste less than 1%

All the powder used in the process is densified, there is virtually no powder waste.

Densify any material between 200°C and 2400°C

The Field Assisted Sintering Technology, Spark Plasma Sintering (FAST/SPS) process prevents grain growth within the materials. In addition to the pressure and temperature applied, the materials maintain a fine microstructure and can reach densities in excess of 99.9%.