AUWIN CMC
Ceramic Aerogel AEG1000 / 1400 with adhesive-Backed
Battery fire protection
Resists Burn-Through at >1200°C
Delays fire spread
EV Car fire safety
UL9540A compliant Solution
LiB AEG Ceramic aerogel thermal barrier –battery fire protection under high temperature
Auwin LiB AEG Series Ceramic Aerogel represents a breakthrough beyond traditional aerogel materials. This next-generation ceramic aerogel delivers superior high-temperature thermal insulation performance (maintaining excellent fire resistance above 675 °C), while offering a simpler, more eco-friendly manufacturing process. (Developed with a proprietary full-gradation composite formulation and in-situ aerogel generation technology), it ensures cost-effective fire protection solutions. With its outstanding thermal barrier and safety performance, the AEG Series ceramic aerogel is an ideal fire-resistant insulation material for lithium-ion battery energy storage systems, new energy vehicles (EV batteries), hazardous chemical transportation, and aerospace applications.
Adhesive-backed ceramic aerogel is engineered for fast, reliable battery fire protection. With integrated double-sided adhesive, it installs quickly while maintaining exceptional high-temperature insulation.
Key Features
Superior High-Temperature Performance with AEG1000/1400 ceramic Aerogel
* Resists Burn-Through at >1200°C – maintains barrier integrity during thermal runaway.
* Suppresses Heat Propagation – delays fire spread between cells and modules.
* High-Temperature Insulation Performance – Withstands 1200 °C+, far beyond silica aerogels, ensuring reliable insulation during lithium-ion battery thermal runaway (700–1000 °C).
* Compression & Cushioning – Absorbs cell expansion and contraction, enhancing EV battery pack safety.
* Flexible Integration – 1–10 mm thickness, soft and cuttable; can be packaged with PET or mica, with options for protective strips and double-sided adhesive. -- easy integration into battery packs.
* Cost-Effective & Patent-Safe – Based on independent patents, no ASPEN licensing, helping new energy companies reduce costs.
*Double-Sided Adhesive Backing – peel-and-stick installation
Applications
Applications of ceramic aerogel in Battery thermal management
- * Cell-to-Cell Thermal Barrier preventing runaway chain reactions.
- * Battery Pack Fire Delay Layer for
EVs and ESS (Energy Storage Systems).
- * High-Temperature Insulation Shield under abuse and crash conditions.
* Enclosure Fire
Protection
for automotive and industrial battery systems.
Other industries:
*Aviation, aerospace
*Transportation of dangerous chemicals
Technical Specifications
AUWIN LiB AEG Ceramic Fiber Thermal
Barrier – Technical Data
Stress-strain curve: 20-25% @ 1Mpa; 30-45%@ 2Mpa
Refractory temperature: 1200 ℃ ( LiB AEG1000 & 1000H ) ; 1350 ℃ ( LiB AEG1400 )
Color : White
Density, kg/m3: 250-350
Compressive Strength Mpa: 0.4
Tensile Strength(PSI): ≥120
Thermal Conductivity ---Average Thermal Conductivity W/(m·K)
25℃ ---------0.021 ( AEG1000H) ; 0.025 (AEG1000 & 1400)
100℃ --------0.025 ( AEG1000H) ; 0.032 (AEG1000 & 1400)
300℃ --------0.032 (AEG1000H) ; 0.042 (AEG1000 & 1400)
500℃ --------0.038 (AEG1000H) ; 0.060 (AEG1000 & 1400)
675℃ insulation ( 1.5mm thickness): 430℃ (AEG1000H) ; 370℃ (AEG1000)
Flame retardant rating : UL 94 V-0
ROHS: comply with
Electrical insulating performance: DC 2500V , ≥1000MΩ
Withstand voltage: DC 1000V, leakage current ≤0.1mA
Chemistry composition: SiO2: 35-50% ; Al2O3: 40-60% ; Others 5-10%
Dimension ( thickness) : 1-10mm
Dimension ( width) : 600mm, 1000mm, 1200mm or customized
Compliance & Certifications
Safety
Standards & Testing
- *UL94 V-0 Flame Retardancy
- * GB 38031-2020 (EV battery safety compliance)
- * Thermal Runaway Simulation Tested (no burn-through)
- * RoHS / REACH compliant
- * The company is certified with IATF 16949
Enhance Battery Fire Safety with AEG series
AEG 1000/1400 ceramic fiber thermal barrier withstands extreme thermal runaway events, effectively suppressing heat propagation and delaying fire ignition. Simplify your thermal management with adhesive-backed ceramic aerogel. Easy to install, fireproof, and proven in battery thermal runaway safety.
AUWIN LiB AEG Ceramic Fiber Thermal Barrier – Technical Data
Stress-strain curve: 20-25% @ 1Mpa; 30-45%@ 2Mpa
Refractory temperature: 1200 ℃ ( LiB AEG1000 & 1000H ) ; 1350 ℃ ( LiB AEG1400 )
Color : White
Density, kg/m3: 250-350
Compressive Strength Mpa: 0.4
Tensile Strength(PSI): ≥120
Thermal Conductivity ---Average Thermal Conductivity W/(m·K)
25℃ ---------0.021 ( AEG1000H) ; 0.025 (AEG1000 & 1400)
100℃ --------0.025 ( AEG1000H) ; 0.032 (AEG1000 & 1400)
300℃ --------0.032 (AEG1000H) ; 0.042 (AEG1000 & 1400)
500℃ --------0.038 (AEG1000H) ; 0.060 (AEG1000 & 1400)
675℃ insulation ( 1.5mm thickness): 430℃ (AEG1000H) ; 370℃ (AEG1000)
Flame retardant rating : UL 94 V-0
ROHS: comply with
Electrical insulating performance: DC 2500V , ≥1000MΩ
Withstand voltage: DC 1000V, leakage current ≤0.1mA
Chemistry composition: SiO2: 35-50% ; Al2O3: 40-60% ; Others 5-10%
Dimension ( thickness) : 1-10mm
Dimension ( width) : 600mm, 1000mm, 1200mm or customized
Compliance & Certifications
Safety Standards & Testing
- *UL94 V-0 Flame Retardancy
- * GB 38031-2020 (EV battery safety compliance)
- * Thermal Runaway Simulation Tested (no burn-through)
- * RoHS / REACH compliant
- * The company is certified with IATF 16949
Enhance Battery Fire Safety with AEG series
AEG 1000/1400 ceramic fiber thermal barrier withstands extreme thermal runaway events, effectively suppressing heat propagation and delaying fire ignition. Simplify your thermal management with adhesive-backed ceramic aerogel. Easy to install, fireproof, and proven in battery thermal runaway safety.
Q&A
1-What is ceramic aerogel?
Ceramic aerogel is an advanced insulation material made with ceramic oxides, offering ultra-low thermal conductivity under high-temperature.
2-How high a temperature can ceramic aerogel withstand?
It can operate reliably above 1200 °C, with some formulations stable up to 1350 °C.
3-Can ceramic aerogel stop thermal runaway in lithium-ion batteries?
It provides effective fire barriers and thermal runaway protection in the 700–1000 °C range, outperforming silica aerogels.
4-What is the thermal conductivity of AEG ceramic aerogel?
0.021–0.025 W/m·K at room temperature (25℃),
0.038-0.060 W/m·K at 500℃
5- Is ceramic aerogel flexible or rigid?
it is soft, cuttable, and easy to integrate with mica/ pet sheet
6-Can ceramic aerogel be laminated with other materials?
Yes, it can be packaged with PET, mica, or aluminum foil, and customized with adhesive backing or protective strips.
7-What thicknesses are available?
Typically 1–10 mm
8-Is ceramic aerogel safe and environmentally friendly?
It is inorganic, non-toxic, non-flammable, and manufactured using eco-friendly processes.
9-How does it compare in price to aerogel?
The price is cheaper, because it is developed with a proprietary full-gradation composite formulation and in-situ aerogel generation technology, no need to pay the patent cost of ASPEN.
10-How easy is it to integrate ceramic aerogel into battery modules?
It can be cut to size, applied with double-sided adhesive, and packaged for plug-and-play integration.
11- Is ceramic aerogel durable under thermal cycling?
Yes, it remains stable under repeated heating (above 1000c) and cooling, ensuring long-term reliability.
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AUWIN LiB AEG series ceramic aerogel
Data sheet
|
Product Name |
LiB AEG1000H |
LiB AEG1000 |
LiB AEG1400 |
|
Stress-strain curve |
20-25% @ 1Mpa; 30-45%@ 2Mpa | ||
|
Refractory temperature |
1300 |
1300 |
1400 |
|
Color |
White | ||
|
Density, kg/m3 |
250-350 | ||
|
Compressive Strength Mpa |
0.4 | ||
|
Tensile Strength(PSI) |
≥120 | ||
|
Thermal Conductivity |
Average Thermal Conductivity W/(m·K) | ||
|
25℃ |
0.021 |
0.025 |
0.025 |
|
100℃ |
0.025 |
0.032 |
0.032 |
|
300℃ |
0.032 |
0.042 |
0.042 |
|
500℃ |
0.038 |
0.060 |
0.060 |
|
675℃ insulation ( 1.5mm thickness) |
430℃ |
370℃ |
- |
|
flame retardant rating |
UL94-0 | ||
|
ROHS |
Comply with | ||
|
Electrical insulating performance |
DC 2500V , ≥1000MΩ | ||
|
Withstand voltage |
DC 1000V, leakage current ≤0.1mA | ||
|
Chemistry composition |
SiO2: 35-50% ; Al2O3: 40-60% ; Others 5-10% | ||
|
Dimension ( thickness) |
1-10mm | ||
|
Dimension ( width) |
600mm, 1000mm, 1200mm or customized |
||
Superior High-Temperature Performance with AEG1000/1400 ceramic Aerogel
* Resists Burn-Through at >1200°C – maintains barrier integrity during thermal runaway.
* Suppresses Heat Propagation – delays fire spread between cells and modules.
* High-Temperature Insulation Performance – Withstands 1200 °C+, far beyond silica aerogels, ensuring reliable insulation during lithium-ion battery thermal runaway (700–1000 °C).
* Compression & Cushioning – Absorbs cell expansion and contraction, enhancing EV battery pack safety.
* Flexible Integration – 1–10 mm thickness, soft and cuttable; can be packaged with PET or mica, with options for protective strips and double-sided adhesive. -- easy integration into battery packs.
* Cost-Effective & Patent-Safe – Based on independent patents, no ASPEN licensing, helping new energy companies reduce costs.
*Double-Sided Adhesive Backing – peel-and-stick installation
Applications
