Company Technology Products Materials Applications Contact
🇧🇷PT 🇬🇧EN
Material · CT CEDUR line

Alumina ceramics (Al₂O₃)

Alumina is the reference material of industrial technical ceramics: 9 Mohs hardness, chemical inertness and thermal stability at a competitive cost. The CETARCH CT CEDUR line spans 90% to 99.7% Al₂O₃, with built-in nanoparticles and formulations tuned to every level of demand.

The material

Why alumina dominates industrial technical ceramics

Alumina is aluminium oxide (Al₂O₃) sintered at high temperature into a dense, chemically stable technical ceramic. No other ceramic material delivers the same combination: near-diamond hardness, inertness to acids and alkalis, stability at high temperatures and a cost that makes lining entire equipment viable.

That is why alumina is the base of virtually every industrial wear-resistant ceramic lining — from cyclones and piping to slurry pumps and bushings.

9 Mohshardness — close to diamond
90–99,7%Al₂O₃ content (CT CEDUR line)
3,7–3,85density (g/cm³)
1.750 °Creference temperature
CT CEDUR line

Technical aluminas for every level of demand

From CT CEDUR 90 to 99HH, formulations with rising alumina and nanoparticle content — hardness, density and chemical inertness tuned to your process. Rare-earth (TR) compositions on demand.

Material Al₂O₃ content Density Hardness HV Flexural Water abs. Best for
CT CEDUR 90Standard · lining 90% a 99,5%3,7 a 3,85 g/cm³> 1300 HV380 MPa< 0,05% High-hardness, chemical-attack lining
CT CEDUR 94HHHigh abrasion 95,8–96,3%3,70–3,72 g/cm³1450–1500 HV380 MPa< 0,4% Excellent abrasion resistance
CT CEDUR 96HHAbrasion + impact 95,8–96,3%3,73–3,76 g/cm³1500–1600 HV380 MPa< 0,2% Severe abrasion and impact
CT CEDUR 99HHHigh purity 99,5–99,7%3,78–3,82 g/cm³1550–1600 HV380 MPa< 0,2% Abrasion, impact, chemistry and thin/complex parts

// Sintered > 1,600 °C, virtually free of glassy phase. Typical test values — custom compositions available, including doped zirconia and rare earths.

Which formulation for which duty

Doped zirconia nanoparticles — CETARCH advanced ceramic materials engineering
Alumina, zirconia and rare-earth nanoparticles produced by CETARCH itself.
Vertically integrated manufacturing

From nanoparticle to sintered part — all in-house

CETARCH controls the entire technical-alumina chain: it produces its own alumina, zirconia, rare-earth and other oxide nanoparticles by dry process, contamination-free; designs and builds the kilns, dryers, mixers and mills; and develops the refractories. This full control guarantees purity, repeatability and the freedom to engineer custom formulations.

Sintering happens in in-house kilns reaching 1,750 °C, producing parts virtually free of glassy phase — maximum hardness and strength. In research with UFSC, CETARCH also applies plasma treatment and laser deposition to alter the properties of already-sintered parts.

Technical ceramic sintering kiln with in-house refractories
Sintering kiln designed and built by CETARCH — firing up to 1,750 °C.
FAQ

Frequently asked questions about alumina ceramics

Which alumina content should I choose: 90, 94/96 or 99%?

Rule of thumb: CT CEDUR 90 for standard lining with chemical attack; 94HH for severe abrasion; 96HH when impact is also present; 99HH for aggressive chemical attack, high purity and thin or complex parts. CETARCH engineering specifies the formulation from an analysis of your process.

Alumina or zirconia: which one?

Alumina covers the vast majority of industrial wear applications with the best cost-benefit. Doped zirconia and rare-earth compositions come in as special formulations, on demand, when the process requires properties beyond alumina.

Is alumina chemically resistant?

Yes. Alumina is inert to aggressive acids, alkalis and solvents under typical process conditions — no corrosion and no contamination of the processed material. For the most aggressive chemical attack, the indicated grade is the high-purity CT CEDUR 99HH.

What is the maximum service temperature of alumina?

The CT CEDUR line reference is 1,750 °C — the same temperature CETARCH's own kilns reach during sintering. In practice the limit depends on the formulation and process conditions; engineering confirms the specification for your case.

Keep exploring

Related content