- Choice for the Earth
- Instead of petroleum-based materials, renewable biomass is used to reduce environmental burdens and minimize carbon footprints
- Outstanding Performance
- Biomass-based polyurethane provides excellent durability and cushioning equivalent to conventional polyurethane
- Eco Friendly Production
- Establish an environmentally friendly production system by minimizing hazardous emissions and increasing energy efficiency in the production process
- Biomass Ratio
-
Biomass 25 insole
| Specific gravity |
gr/cc |
0.30~0.34 |
| Hardness |
C TYPE |
30~40 |
| Sprit tear |
Kgf/cm |
Min 1.8 |
| The rate of growth |
% |
Min 700 |
| Ball Elasticity |
% |
Min 55 |
| Compressive strain |
% |
Max 30 |
- Biomass Ratio
-
Biomass 40 midsole
| Specific gravity |
gr/cc |
0.30~0.34 |
| Hardness |
C TYPE |
30~40 |
| Sprit tear |
Kgf/cm |
Min 1.8 |
| The rate of growth |
% |
Min 750 |
| Ball Elasticity |
% |
Min 50 |
| Compressive strain |
% |
Max 30 |
- Biomass Ratio
-
Biomass 70 insole
| Specific gravity |
gr/cc |
0.30~0.34 |
| Hardness |
C TYPE |
30~40 |
| Sprit tear |
Kgf/cm |
Min 1.8 |
| The rate of growth |
% |
Min 750 |
| Ball Elasticity |
% |
Min 50 |
| Compressive strain |
% |
Max 30 |
