Thermal insulation SUPERTECH-BVP

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Stainless Steel Building Vacuum Insulation Panels Supertech-BVP are vacuum insulation panels encapsulated in stainless steel, designed for building applications where fire prevention, dimensional stability and long-term thermal performance are required. The construction combines a hard molded bottom shell with vacuum edge banding to deliver a flat, consistent panel and configurable dimensions to reduce thermal bridging in assemblies.

Key product features:

• Encapsulation: stainless steel encapsulation for Building Vacuum Panels (BVP) to improve fire compatibility and mechanical protection.
• Hard bottom shell molding: special molding process reduces corner variability and increases dimensional stability during handling and installation.
• Vacuum edge banding: edge treatment with no two-dimensional stretch for a regular, flat appearance without folding.
• Customizable size and shape: panels can be produced to project-specific dimensions to minimize thermal bridges in assemblies.

Advantages:

• No folds, improved handling — design reduces folding and hard damage during transport and installation compared with traditional BVPs.
• Ageing and puncture resistant — stainless steel shell and molding provide impact resistance and long-term material stability.
• Flexible geometry — shape customization lowers assembly thermal bridging and simplifies integration with building elements.
• Stable vacuum performance — higher internal vacuum degree ensures consistent insulating performance and measurable energy savings.
• Extended service life — wear-resistant corners and sealed edges reduce air ingress and extend operational lifetime.

Technical specifications:

• Product type: Vacuum Insulation Panel with stainless steel encapsulation (Supertech-BVP).
• Encapsulation material: stainless steel.
• Shell: hard molded bottom shell for improved corner stability.
• Edge treatment: vacuum edge banding with no two-dimensional stretch; regular, flat appearance.
• Customization: size and shape customizable to project requirements.
• Primary benefits: suitability for construction fire prevention measures, increased durability and puncture/ageing resistance, reduced thermal bridging, high internal vacuum degree for stable insulation performance.