Nano Fire-resistance and Thermal Insulation Panel
Nano Fire-resistance and Thermal Insulation Panel is an engineered material manufactured through dry-mixing and cold-press molding with nano-aerogel and functional fillers as core components. By leveraging a multi-scale micro-nano porous structure and thermal radiation shielding via light-blocking agents, it delivers exceptional high-temperature insulation. The product's minimum thickness of 1 mm enables optimal thermal blocking in confined spaces. A 3mm-thick Nano Fire-resistance and Thermal Insulation Panel maintains a cold-side temperature ≤140℃ under a 675℃ hot-side condition. At the same time, the material complies with RoHS, ELV, and REACH environmental standards.
- OVERVIEW
- PRODUCT PARAMETERS
- APPLICATION FIELD
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Lightweight
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High heat insulation
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Adjustable
Product Features
| Property | Nano Fire-resistance and Thermal InsulationPanel | |
| Product Mix | Wrapping and folding | |
| Specification (mm) | 290*88*3.3 | |
| Compression Performance | 30±5%@1MPa | |
| Thermal Conductivity of Core Material (W/(m·K)) | ≤0.03@25 ℃ | |
| Thermal Insulation Performance | Cold side ≤120℃ @3mm thickness | |
Insulation Resistance (MΩ) | ≥500 | |
Application Field
Cell-level precise protection: it can be directly embedded between battery cells to block the temperature transfer of individual cells and prevent the chain reaction of thermal runaway.
Fire Barrier for Battery Cabinets: Applicable in energy storage enclosures. Ensures cabinet structural integrity with low external surface temperatures for 1 to 2hours following thermal runaway events internally, preventing excessive heat propagation to adjacent battery cabinets.
Fire Barrier for Battery Cabinets: Applicable in energy storage enclosures. Ensures cabinet structural integrity with low external surface temperatures for 1 to 2hours following thermal runaway events internally, preventing excessive heat propagation to adjacent battery cabinets.
