Hexagon Alumina Ceramic Lining Mats From Factory Manufacturer
Detailed description:
Light duty ceramic sheet and ceramic wear plates offer extremely long wear life in applications with sliding wear. The thickness and the low weight make these products ideal in applications where weight and space are limiting factors. The low friction, smooth surface prevents material build-up in low inclination installations. The square ceramic tiles make it possible to bend the sheeting which makes it the perfect protection for both con-cave and convex surfaces. The size of the ceramic sheeting can easily be adjusted by bending the sheeting and cutting it in between the ceramic tiles. The sheet is supplied with a bonding layer on the back side to simplify the gluing process and reduce the installation time needed. It results in a high bond strength which ensures that the product is securely attached throughout its wear life.
Alumina ceramic cylinder characters:
> High hardness with Moh's hardness 9 grade
> High abrasion and chemical resistance
> Easy installation by epoxy resin glue water
> Easy mending if someone tile drop off
> Various of alumina ceramic hex sheet size available
Chumshun hexagonal tile and sheet size
Ceramic hexagonal tile size |
Ceramic hexagonal mat (stick on silk /nylon net/paper) size |
S12xT3mm |
300*300 mm 150x150mm |
S12xT6mm |
300*300 |
S12*T13 mm |
300*300 |
S12*T20 mm |
300*300 |
S12*T24 mm |
300*300 |
S12*T11 mm |
300*300 |
Note: more customized size available |
Application industry:
-- Mining industry
-- Cement industry
-- Coal handling industry
-- Steel industry
-- Port industry
-- Power plant
Chemical Composition:
Al2O3 |
SiO2 |
CaO |
MgO |
Na2O |
92~93% |
3~6% |
1~1.6% |
0.2~0.8% |
0.1% |
Physical properties:
Specific gravity (g/cc) |
>3.60 |
Apparent porosity (%) |
0 |
Flexural Strength (20ºC, Mpa) |
280 |
Compressive strength (20ºC, Mpa) |
850 |
Rockwell hardness (HRA) |
80 |
Vickers hardness (hv) |
1050 |
Moh's hardness (scale) |
≥9 |
Thermal Expansion (20-800ºC, x10-6/ºC) |
8 |
Crystal Size (μm) |
1.3~3.0 |