Custom-made Ceramic Parts

Development of Prototypes

Small and Medium Series

Technical Consulting

Production Process

Whatever you need, we can develop a new ceramic for it

Materials & Properties

ALUMINA
Alumina 99,9%
  • High purity and density
  • Excellent dielectric
  • High thermal conductivity
  • High corrosion resistance specially in the field of sea water treatment
Alumina 99,7%
  •  Good dielectric
  • High mechanical strength
  • Wear resistance
  • High temperature resistance
  • High hardness 
  • Good thermal conductivity
Alumina 96%
  • Good resistance to abrasion
Alumina ZTA
  • Good dielectric
  • High toughness
  • Excellent resistance to high temperatures
  • Excellent corrosion resistance tostrong acids, and strong alkalis
  • High mechanical strength
  • Biocompatibility
ZIRCONIA
Zirconia Y-TZP
  • High mechanical strength
  • High toughness
  • High impact resistance
  • Excellent wear resistance
  • Excellent corrosion resistance
  • Biocompatibility
Zirconia Y-PSZ
  • High purity and density
  • Good corrosion resistance
  • Good compromise between oxygenconductivity & mechanical properties
Zirconia Y-FSZ
  • High purity and density
  • Good corrosion resistance
  • High oxygen conductivity
  • High temperatures resistance
Zirconia Mg-PSZ
  • High purity and high strength
  • High resistance to thermal shock and erosion
  • Low thermal expansion and non-wettability
Zirconia ATZ
  • Good dielectric
  • High thermal conductivity
  • High mechanical strength and stiffness
  • Excellent corrosion resistance to strong acids,and strong alkalis
  • Biocompatibility
OTHERS
Aluminum Titanate
  • Excellent thermal shock resistance
  • Good corrosion resistance
  • Insulating properties
  • Very low wettability by non-ferrous melts
  • Good wear resistanc
Tungsten Carbide
  • With or without alloys
  • High hardness
  • High wear resistance
  • High impact resistance
Composites for E.D.M
  • Zirconia or alumina based materials electrodischarge machinable

Process - Key benefits

Spark plasma sintering (SPS)

Innovative sintering process based on a
modified hot pressing setup in which an
electric current runs directly through the
pressing mould (typically graphite) and
the component. By means of the pulsed
electric current and the “spark plasma
effect”, very rapid heating times and short
process cycles are achieved.