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TECHNICAL SHEET
PHYSICO-MECHANICAL CHARACTERISTICS
Unixial Compressive Strenght
- dry speciment (Kg/cm2): 1.664 ± 285
- wet speciment (Kg/cm2): 1.620 ± 271
- after freezing (Kg/cm2): 1.706 ± 209
Unixial Tensile Strenght
- dry speciment (Kg/cm2): 168 ± 52
- wet speciment (Kg/cm2): 142 ± 31
- after freezing (Kg/cm2): 154 ± 25
Impact Toughness
- speciment 15mm thick (cm): 13 ± 3
- speciment 20mm thick (cm): 13 ± 3
- speciment 30mm thick (cm): 13 ± 3
- Frictional Wear Resistance (mm): 4,50 ± 0,82
- Sand Jet Abrasion (g): 0,10 ± 0,01
- Static Modulus Elasticity (Kg/cm2): 712.150 ± 73.410
- Dinamic Modulus Elasticity (Kg/cm2): 626.000 ± 19.300
- Thermal Linear Deformation Coefficient 103(mm/m°C): 2,5
- Imbibition Coefficient (‰): 8,350 ± 0,42
- Unit Weight (Kg/cm3): 2.627 ± 35
- Specifi c Gravity (g/cm3): 2,7
- Poisson’s Ratio: 0,26 ± 0,02
CHEMICAL ANALYSIS
- CaCO3 % on weight: 97,11
- MgO % ppm: –
- SiO3 % on weight: –
- MgCO3 % on weight: 0,75
- SiO2 ppm: 0,19
- TiO2 ppm: <10
- LiO2 ppm: 6
- NaO2 ppm: 31
- K2O ppm: 15
- Fe2O3 ppm: 120
- Al2O3 ppm: 92
- Cr2O3 ppm: 18
- PbO ppm: 76
- MnO ppm: 27
- CuO ppm: 11
