hyperCELL technology
The Future
The Future
of footwear
of footwear
technology
technology
Hypercell is Co.Bo.’s advanced, next-generation lightweight foam technology engineered for superior performance. Offering exceptional flexibility, durability, and high energy rebound, it ensures optimal comfort and technical excellence, making it ideal for high-performance sports footwear, safety footwear or lifestyle sneakers.
ENHANCED DURABILITY
+60%
Engineered for resilience, Hypercell resists wear and tear, significantly extending the lifespan of high-performance footwear products.
EXTREME LIGHTWEIGHT
-30%
Hypercell reduces overall product weight by 30% compared to traditional injected EVA materials, enhancing performance and efficiency without compromising structural integrity.
HIGH ENERGY RETURN
+70%
Hypercell provides exceptional energy rebound, boosting responsiveness and performance while reducing wearer fatigue
hypercell Performances
(C)
technical features
Discover the
Power of Hyperfoam
Discover the
Power of Hypercell
Density
0,15 – 0,20 gr/cm3
Energy return
> 50%
Hardness
45 - 48 Asker C
Abrasion resistance
<= 160 Gr/mm3
Flexural strength
> 100.000 cycles
Compression resistance
< 30%
Material Comparison
Hypercell vs. Other Materials
See how Hypercell sets a new benchmark against conventional materials in performance and efficiency.
hypercell vs
EVA
hypercell vs
TPU
hypercell vs
PU+film
- HYPERFOAM enables sharper, less rounded designs compared to PU
- HYPERFOAM is lighter with over 50% weight reduction compared to PU
- HYPERFOAM enhances walking comfort more effectively than PU
- HYPERFOAM withstands 100,000 cutting cycles, outperforming PU's durability
- HYPERFOAM maintains consistent weight and hardness better than PU
- Allows sharper geometries and better edge definition for greater design flexibility
- Significantly lighter (≥ 50% weight reduction vs PU+film systems)
- Increased walking comfort under dynamic stress
- Greater flexural strength: 100,000+ cycles vs 30,000 standard value
- Improved consistency in weight and hardness
- Higher energy rebound
- Significant reduction in wrinkling due to weight or applied force
- ~30% lower density compared to standard injected EVA (0.30 g/cm³)
- Eliminates dimensional shrinkage (typically 2–3 mm in EVA)
- Guaranteed dimensional stability
- Provides energy return (vs. EVA’s absorption behavior)
- Specifically engineered for technical running footwear
- Weight reduction equal to or exceeding 50%.
- Enhanced surface definition
- Greater abrasion resistance due to improved cell structure
- More uniform cell expansion, even in thinner sections
- Superior rebound and responsiveness
