Refractory Mineral: Spent Alumina (Ceramic) Balls
Al2O3: 95%.

Refractory Mineral: Spent sliding Gate Alumina Plates
Al2O3: 95%

Refractory Mineral: Spent Catalyst Support
Al2O3: +95%

Refractory Mineral: Spent Alumina Catalysts
Al2O3: + 95%.

Refractory Mineral: Spent Magnesite Bricks
MgO is 80% minimum.

Refractory Mineral: Spent Alumina Bricks – 60 – 99% Al203
Al2O3: 95% approx.

Refractory Mineral: Spent Alumina Electrocast Blocks
Al2O3: +90%

Refractory Mineral: Spent Alumina Carbon Slide Plates
Al2O3: 85% min, Fe2O3: 0.6% approx.

Refractory Mineral: Spent Magnesite Carbon Bricks
MgO: 90% min, SiO2: 1% max; Carbon: 8% approx.

Refractory Mineral: Spent Silicon Carbide Plates
SiC: 65% min, Fe2O3: 1% max.

Refractory Mineral: Powder and Grains of Spent Silicon Carbide Plates
SiC: 65% min, Fe2O3: 1% max.

Refractory Mineral: Spent Mag Chrome Bricks
MgO: 60% approx. Cr2O3: 15% approx. SiO2: 2% approx.

Refractory Mineral: Spent AZS
From steel and Glass works

Refractory Mineral: Spent Alumina Carbon Bricks
Al2O3: 73.3% approx., Carbon: 7% approx.

Refractory Mineral: Synthetic Alumina Grains
Al2O3: 96% min, Fe2O3: 0.8% max, TiO2: 1% max, Bulk Density: 3.65

Refractory Mineral: Spent Magnesite Spinnel
MgO is of 88%, Al2O3 : 11%

Refractory Mineral: Spent Medium Duty Firebrick
Lump, crushed and graded or palletized for reuse as paving
Al2O3 : 38-48%

Refractory Mineral: Spent Mullite Grogs
Al2O3 : 58% typically

Refractory Mineral: Spent Alumina Chrome Catalyst
Typical: Al2O3 80% Cr2O3 15%

Refractory Mineral: Spent Carbon
C92%

Refractory Mineral: Spent Bauxite brick
Typical 72% A1203

Refractory Mineral: Spent Graphite products
Including Electrodes & Speciality grade graphite from chemical industries etc..

Scrap Zircon