![]() |
Place of Origin | China |
Brand Name | FQ |
Certification | IATF16949 |
Model Number | MPP 01 |
Flame-retardant polypropylene microcellular foam (MPP) is a porous foam material made by using polypropylene (PP) as the substrate to form a large number of micron-sized bubbles in the body through clean supercritical carbon dioxide technology.
MPP foam is a closed-cell foam made from polypropylene beads that provides exceptional thermal insulation, low thermal conductivity, and excellent temperature stability. As a battery insulation material, MPP foam is highly suitable for NEV batteries, which require stable operating temperatures to ensure optimal performance and safety.
MPP foam is available in various densities and can be customized to meet the specific thermal protection requirements of different NEV battery applications. With its low thermal conductivity and excellent insulation performance, MPP foam ensures that NEV batteries maintain a stable operating temperature, reducing the risk of overheating or damage to the battery.
MPP foam also has excellent fire protection properties, classified as UL94 V-0, indicating its outstanding resistance to ignition and non-propagation of flames once the ignition source is removed. These fire protection properties make MPP foam an ideal material for NEV battery applications, helping to prevent the spread of fire and improve overall safety. In the event of a fire, MPP foam can help to contain the flames and extinguish them, reducing the risk of damage and injury.
The main performance parameters are shown in Table
Property Name | Unit | MPP25 Index |
Test Standard |
Colour | / | CMYK 0~20(White) | PANTONE |
Density | kg/m3 | 36±5 | initial Thickness Detection Using The Mitutoyo 547-301 Thickness Gauge; By Weight, Volume Calculate Density; |
Compression Curve | MPa | 10%:0.11≤σ≤0.24 20%:0.14≤σ≤0.34 30%:0.17≤σ≤0.38 40%:0.22≤σ≤0.42 50%:0.28≤σ≤0.47 60%:0.34≤σ≤0.54 70%:0.44≤σ≤0.67 |
compression Rate 2mm/min 0.02~8mpa Compression Curve Sample Size 50*50*2mm |
Tensile Strength | MPa | ≥1.3 | ASTM-D3 574- 08 5mm/min (stretch Rate) |
Tensile Modulus | MPa | ≥2.8 | |
Shear Strength | MPa | ≥1.1 | astm C273c 273m 5mm/min (shear Rate) |
Shear Stiffness | MPa/ mm | ≥0.6 | astm C273c 273m 5mm/min (shear Rate) |
Shear Modulus | MPa | ≥1.2 | astm C273c 273m 5mm/min (shear Rate) |
low-Temperature Stretching -30℃ |
MPa | ≥1.2 | astm-d3574- 08 5mm/min (stretch Rate) |
high-Temperature Stretching 60℃ |
MPa | ≥1.0 | astm-d3574- 08 5mm/min (stretch Rate) |
Double 85 Stretched After Aging | MPa | >1.2 | astm-d3574- 08 5mm/min (stretch Rate) |
coefficient Of Friction Of Mpp To Blue Film | / | 0.181≤μs≤0.577 0.112≤μk≤0.535 |
Gb 10006-88 |
Roughness | μm | 5~40 | gb/t 1031-2009 |
Flame Retardant | / | UL94 HF-1(厚度 10mm) | Ul94 |
Prohibited Objects | / | RoHS | Rohs |
Insulation Resistance | MΩ | ≥500 | 1000v Dc 60s |
mA | <1 | 2700v/60s | |
Thermal Conductivity | W/(m ·℃) |
≤0.05 | gb/t 10295-2008 |
Specific Heat Capacity | J/(kg· ℃) |
1880±200 (@0℃) 2235±200 (@40℃) 2680±200 (@80℃) |
Astm E1269-2011 |
Hard Stiffness | mm | ≤50 | "The sample (250*50*2mm) is placed flat on the high platform, 50mm at one end is fixed on the platform, and the other end is 200mm suspended to detect the suspended end End sag height" |
Compressive Stress Retention Rate | / | ≥20% | compress 50% Hold 30 Days, Detect Pressure Changes |
Flatness | mm | ≤4 | dimensions: 100*150 Mm |
Typical Applications
Contact Us at Any Time