When exposed to flame and extreme temperatures, most composite materials begin to fray, delaminate, or collapse under stress. But MetalQuartz™ tells a very different story.
The close-up photos you see here are not surface decoration—they are the true microstructures of the material after undergoing a high-temperature burn test. Even after direct exposure, the fiber alignment remains stable, the lamination holds tight, and the integrity of the layers is preserved.
Key Observations
• Ultra-thin plies: Each ply measures only ~30 μm, stacked into over 100 layers within just 3 mm of thickness.
• Thermal endurance: At 120 °C and 6 bar of pressure, the structure resists deformation.
• Fiber orientation: The signature 45-degree alignment continues to interlock, preventing delamination.
• Surface brilliance: Instead of dulling, the fibers catch the light, revealing new metallic and quartz-like textures.
Why It Matters
This is not simply about heat resistance. What these tests reveal is a balance of engineering precision and material beauty. Where ordinary composites give way to chaos under stress, MetalQuartz™ demonstrates both resilience and elegance.
For those who demand more than performance—for those who seek strength, endurance, and aesthetic excellence fused into one material—MetalQuartz™ stands as a benchmark.
Strength in Every Layer. Beauty in Every Detail.
