Safety and Durability
A1-rated fire protection: Non-combustible, emits no toxic smoke, and passes UL 94 V-0 flame retardancy testing, making it suitable for use in applications with stringent fire safety requirements.
Long-life design: Inorganic components resist aging and UV radiation, resulting in a service life exceeding 20 years, 3-5 times that of traditional materials.
Mechanical stress resistance: Compression recovery rate ≥ 90%, capable of withstanding the stresses caused by thermal expansion and contraction of pipes, preventing cracking.
Installation and Adaptability
Flexible and bendable: Conforms to complex surfaces like pipe elbows and special-shaped equipment, reducing seams and thermal bridges.
Lightweight design: A 1mm thick blanket weighs only 0.16–0.24 kg per square meter, making it easy for one person to carry and install, reducing construction costs.
Quick installation: Supports adhesive, wrapping, or flush installation, requiring no specialized tools, increasing installation efficiency by 40%.
Product pictures & company introduction
Environmental Protection and Certifications
Green Materials: Free of formaldehyde, heavy metals, and VOCs, the production process is pollution-free and compliant with RoHS 2.0 and REACH regulations.
Recyclability: At the end of its life, silica can be recovered through high-temperature sintering, with a recycling rate of ≥80%.
International Certifications: Certified to ISO 22482 building insulation standards, UL 94 V-0 flame retardant certification, and LEED green building certification.
References
Heat Pipeline Retrofit: A power plant's 350°C steam pipeline used a 10mm aerogel blanket, reducing insulation thickness by 60% and achieving over 40% annual energy savings.
Electric Vehicle Battery Pack: An automaker used a 3mm aerogel blanket as a cell separator, ensuring battery safety through extreme tests such as needle penetration and extrusion.
LNG Tank Insulation: A port tank used a 5mm aerogel blanket combined with vacuum insulation, reducing the daily boil-off rate (BOR) to below 0.05%.
FAQ:
Can this super-insulating aerogel blanket be used in cryogenic environments such as LNG storage tanks or liquid oxygen pipelines? Will its performance be affected at low temperatures?
Fully compatible with cryogenic environments and offering stable low-temperature performance, it is a core solution for cryogenic insulation:
Low-temperature stability: The aerogel blanket's three-dimensional nano-network structure does not crack or become brittle in environments ranging from -196°C (LNG boiling point) to -200°C (liquid oxygen cryogenic temperature), maintaining a thermal conductivity of ≤0.025 W/(m・K), significantly lower than traditional cryogenic insulation materials (such as pearlescent sand, which has a thermal conductivity of ≈0.04 W/(m・K)), effectively reducing cooling loss.
Anti-frosting: Its high hydrophobicity (≥98%) prevents moisture from coming into contact with cold surfaces, preventing frost on the exterior of tanks or pipelines (traditional materials are prone to frost due to moisture absorption, requiring frequent defrosting and maintenance), thus reducing the risk of equipment corrosion.
A real-world case study: A port's LNG storage tanks employed a combination of 5mm aerogel blankets and vacuum insulation, keeping the daily boil-off rate (BOR) below 0.05%. This achieved a 15% energy saving compared to pure vacuum insulation and extended the maintenance cycle to over five years.
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