Showing all 11 results
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Silicon Nitride 3D Printing Paste
NON OXIDE CERAMICS The Silicon Nitride is among the hardest and most resistant technical ceramics.Silicon Nitride 3D Printing Paste
NON OXIDE CERAMICS
The Silicon Nitride is among the hardest and most resistant technical ceramics. It has also a high resistance to thermal shocks, to wear and corrosion (liquid and gas). Its application is found in the components of pumps and valves, semiconductors among others. -
Aluminium Nitride 3D Printing Paste
NON OXIDE CERAMICS The high mechanical properties of this ceramic, combined with high thermal conduAluminium Nitride 3D Printing Paste
NON OXIDE CERAMICS
The high mechanical properties of this ceramic, combined with high thermal conductivity and electrical insulation, are highly recommended in electronics industry. -
Hydroxyapatite 3D Printing Paste
OXIDE CERAMICS Hydroxyapatite/TCP: material used in the biomedical applications for the manufactureHydroxyapatite 3D Printing Paste
OXIDE CERAMICS
Hydroxyapatite/TCP: material used in the biomedical applications for the manufacture of the osseous substitutes, chemical composition close to bone. -
Fused Silica 3D Printing Paste
OXIDE CERAMICS Silice ceramics suit foundry cores and optical applications requirements.Fused Silica 3D Printing Paste
OXIDE CERAMICS
Silice ceramics suit foundry cores and optical applications requirements. -
Tricalcium Phosphate 3D Printing Paste
OXIDE CERAMICS TCP or Tricalcium Phosphate is a material often used for implants in the medical fieTricalcium Phosphate 3D Printing Paste
OXIDE CERAMICS
TCP or Tricalcium Phosphate is a material often used for implants in the medical field, especially to recreate parts close to the structure of a spine. -
Zirconia 8Y 3D Printing Paste
OXIDE CERAMICS 8 mol% yttria-stabilized zirconia is mainly developed for fuel cell applications.Zirconia 8Y 3D Printing Paste
OXIDE CERAMICS
8 mol% yttria-stabilized zirconia is mainly developed for fuel cell applications. -
Cordierite 3D Printing Paste
OXIDE CERAMICS This low CTE and thermal conductivity ceramic is wear resistant. It suits vacuum appCordierite 3D Printing Paste
OXIDE CERAMICS
This low CTE and thermal conductivity ceramic is wear resistant. It suits vacuum application. -
Alumina Toughened Zirconia 3D Printing Paste
OXIDE CERAMICS Alumina Toughened Zirconia, known for their biocompatibility and their resistance toAlumina Toughened Zirconia 3D Printing Paste
OXIDE CERAMICS
Alumina Toughened Zirconia, known for their biocompatibility and their resistance to wear and thermal shock, are recommended for biomedical and industry applications.
The ceramic ATZ combines both Alumina (20%) and Zirconia (80%) ceramics in one. The mix of these two combined offers several properties. -
Silicore 3D Printing Paste
OXIDE CERAMICS Silicore is a ceramic formulation specifically developed for foundry cores. It is foSilicore 3D Printing Paste
OXIDE CERAMICS
Silicore is a ceramic formulation specifically developed for foundry cores. It is formulated on a silica basis and has a high mechanical resistance. It is a porous ceramic enhanced the leachability even when it comes to complex shapes. -
Zirconia 3Y 3D Printing Paste
OXIDE CERAMICS ZrO2, material with the very good mechanical properties cold, being able to be colorZirconia 3Y 3D Printing Paste
OXIDE CERAMICS
ZrO2, material with the very good mechanical properties cold, being able to be colored for applications in jewelry, excellent mechanical properties in the high temperatures, the weak thermal conductivity at room temperature, conductor in T> 1000°C, great hardness, good wear resistance, good chemical slowness, good resistance in the attacks of metals. -
Alumina 3D Printing Paste
OXIDE CERAMICS Al2O3, basic material being useful in many applications for technical ceramics, goodAlumina 3D Printing Paste
OXIDE CERAMICS
Al2O3, basic material being useful in many applications for technical ceramics, good mechanical behavior in the high temperatures, the good thermal conductivity, the big electric resistivity, the great hardness, the good wear resistance, the chemical slowness.