Compressive Strength
Materials Ranked by Compressive Strength
![Alumina CeramAlox Ultra Pure Brand Image](https://precision-ceramics.com/wp-content/uploads/2021/12/precision-ceramics-material-brand-alumina-ceramalox-ultra-pure-1024x768.jpg)
Alumina (Al2O3) – CeramAlox™ Ultra Pure
3,500 MPa
CeramaAlox Ultra Pure is a very high purity (99.95%) grade of Alumina (Aluminium Oxide) often used in the medical industry for it’s compressive strength and purity.
Details
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Zirconia-Alumina (ZTA) – CeramAlloy™ Ultra Hard
3,000 MPa
Zirconia-Alumina (ZTA) exhibit a combination of high hardness, strength, wear, and corrosion resistance while still maintaining reasonably high fracture toughness.
Details
![Silicon Nitride CeramaSil-N Brand Image](https://precision-ceramics.com/wp-content/uploads//precision-ceramics-material-brand-silicon-nitride-ceramasil-n-02-600x450.jpeg)
Silicon Nitride (Si3N4) – CeramaSil-N™
3,000 MPa
Silicon Nitride has the most versatile combination of mechanical, thermal, and electrical properties of any advanced ceramic material.
Details
![Silicon Carbide CeramaSil-C Brand Image](https://precision-ceramics.com/wp-content/uploads/2021/12/precision-ceramics-material-brand-silicon-carbide-ceramasil-c-1024x768.jpg)
Silicon Carbide (SiC) – CeramaSil-C™
3,000 MPa
Silicon Carbide (SiC) is one of the lightest, hardest, and strongest advanced ceramic materials with exceptional thermal conductivity, acid resistance, and low thermal expansion.
Details
![Aluminum Nitride Brand Image](https://precision-ceramics.com/wp-content/uploads//precision-ceramics-material-brand-aluminum-nitride-1024x768.jpeg)
Aluminium Nitride (AlN) – CeramAlum™
2,000 MPa
Aluminium Nitride (AlN) is an excellent material to use if high thermal conductivity and electrical insulation properties are required; making it an ideal material for use in thermal management and electrical applications.
Details
Ceramic Material Comparison Chart
Related Properties
![Fracture Toughness](https://precision-ceramics.com/wp-content/uploads//material-property-fracture-toughness-01-4x3-1-600x450.jpeg)
Fracture Toughness
The ability to resist fracture is a mechanical property of materials known as fracture toughness. For advanced ceramics it uses a critical stress intensity factor known as KIC where the fracture normally occurs at the crack terminations.
![Density](https://precision-ceramics.com/wp-content/uploads//material-property-density-01-4x3-1-600x450.jpeg)
Density
Density is the mass of a material per unit volume. The unit of measurement can be expressed in different ways and is referred us as g/cm3 but another measurement value is kg/m3.
![Hardness](https://precision-ceramics.com/wp-content/uploads//material-property-hardness-01-4x3-1-600x450.jpeg)
Hardness
One of the most valuable characteristics of advanced ceramics in high-performance applications is their extreme hardness. Hard ceramic materials are used for a wide range of applications in diverse fields and applications such as cutting tools for milling and grinding.