Morgan Advanced Materials Datasheets for Specialty Ceramics
Specialty ceramics include nitrides, borides, carbon, zirconia, rare earth oxide (REO) materials and silicides as well as other specialized non-metallic compounds.
Specialty Ceramics: Learn more
| Product Name | Notes |
|---|---|
| A Magnesia partially-stabilised Zirconia with exceptional transformation toughening properties. Contains 96.5% ZrO2 and HfO2 in combination with 3.5% MgO. Designed for applications requiring high thermal shock resistance. | |
| A Magnesia partially-stabilised Zirconia with exceptional transformation toughening properties. Contains 96.5% ZrO2 and HfO2 in combination with 3.5% MgO. Designed for applications requiring maximum strength. | |
| A specially formulated ceramic with a TiO2 content of 95%. This material can be processed as electrically insulative in its pure form, or electrically conductive in a reduced form... | |
| A very high purity zirconia-based material, partially stabilised with yttria, produced specifically for surgical implant devices. Contains 99.9 % ZrO2, Y2O3 and HfO2 in... | |
| A zirconia-based material, partially stabilised with yttria. Contains 94.0% ZrO2 and HfO2 in combination, plus 5.4% Y2O3 and 0.25% Al2O3. This... | |
| A zirconia-based material, partially-stabilised with magnesia. Contains 96.5% ZrO2 and HfO2 in combination, with 3.5% MgO. | |
| Alumina-based material with mechanical properties enhanced by the addition of yttria partially-stabilised zirconia. Typically contains in excess of 80% Al2O3 with the remainder comprising mainly ZrO2... | |
| An advanced synthetic ceramic with a nominal Si3N4 content of 99%. Reaction bonded silicon nitride (RSBN) is made by directly reacting compacted silicon powder with nitrogen to... | |
| An advanced synthetic ceramic with a nominal Si3N4 content of 99%. The sintered silicon nitride (SSN) technique produces a material with excellent physical properties, that is ideally... |