Auto Battery Thermal Wrap Hardness Shore A Silicone Rubber Film
Price:
Fuzhou Fuqiang Precision Co.,Ltd.
MOQ:
Customized
Delivery Time:
1000 pcs/ days
Brand:
FQ
Product Description
Battery Wrapping Flame Hardness Shore A Barrier Films High Flame Retardant Silicone Rubber Battery Thermal Wrap
Main Features
It is used to realize buffering energy absorption between battery pack cells.
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Refractory silicone rubber composite layer of ultra-high strength stubborn fabric makes it have high mechanical strength;
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It can maintain solid structural integrity at high temperatures or flame, and has excellent electrical insulation;
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Low smoke, low flame and low smoke toxicity during combustion;
- It can be processed to ultra-thin thicknesses and has excellent flexibility.
Specification
The main performance parameters are shown in Table
| Serial number | Test items | Unit | Test Standard | SR No. | |||
| SR 35-A | SR 40-A | SR 50-A | SR 60-A | ||||
| 1 | Hardness | Shore A | GB/T531.1-2008 | 35±7 | 40±10 | 50±10 | 60±10 |
| 2 | Density | g/cm3 | 4.3.2 | 0.8≤μ±3σ≤1.4 | 1.00≤μ±3σ≤1.51 | 1.00≤μ±3σ≤1.51 | 1.1≤μ±3σ≤1.5 |
| 3 | 25℃ Compression curve | MPa | GB/T 7757-2009 | 10%:0.12≤μ±3σ≤0.22 | 10%:0.25≤μ±3σ≤0.53 | 10%:0.25≤μ±3σ≤0.75 | 10%: 0.45≤μ±3σ≤0.80 |
| 20%:0.25≤μ±3σ≤0.45 | 20%:0.50≤μ±3σ≤0.86 | 20%:0.63≤μ±3σ≤1.77 | 20%: 0.95≤μ±3σ≤1.45 | ||||
| 30%:0.45≤μ±3σ≤0.7 | 30%:0.68≤μ±3σ≤1.32 | 30%:1.20≤μ±3σ≤2.24 | 30%: 1.50≤μ±3σ≤2.50 | ||||
| 4 | 25℃ Shear performance under pressure | Strength: µ-3σ≥0.8 | Shear strength under pressure: µ-3σ≥0.5 | Shear strength under pressure: µ-3σ≥0.2 | Shear strength under pressure: µ-3σ≥0.8 | ||
| Modulus: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | ||||
| 5 | 25℃ Tensile strength | MPa | GB/T 528-2009 | µ-3σ≥0.8 | µ-3σ≥1.1 | µ-3σ≥1.65 | / |
| 6 | -30℃ Compression curve | MPa | GB/T 7757-2009 | 10%:0.08≤μ±3σ≤.0.22 | 10%:0.25≤μ±3σ≤0.53 | 10%:0.35≤μ±3σ≤0.65 | 10%:0.55≤μ±3σ≤0.90 |
| 20%:0.25≤μ±3σ≤0.45 | 20%:0.50≤μ±3σ≤0.86 | 20%:0.90≤μ±3σ≤1.20 | 20%:1.10≤μ±3σ≤1.95 | ||||
| 30%:0.45≤μ±3σ≤0.9 | 30%:0.68≤μ±3σ≤1.32 | 30%:1.50≤μ±3σ≤2.00 | 30%: 2.00≤μ±3σ≤3.95 | ||||
| 7 | -30℃ Shear performance under pressure | Strength: µ-3σ≥0.8 | Shear strength under pressure: µ-3σ≥0.5 | Shear strength under pressure: µ-3σ≥0.2 | Shear strength under pressure: µ-3σ≥0.8 | ||
| Modulus: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | ||||
| 8 | -30℃ Tensile strength | MPa | GB/T 528-2009 | µ-3σ≥0.8 | µ-3σ≥1.1 | µ-3σ≥1.65 | / |
| 9 | 60℃ Compression curve | MPa | GB/T 7757-2009 | 10%:0.12≤μ±3σ≤0.22 | 10%:0.25≤μ±3σ≤0.53 | 10%:0.35≤μ±3σ≤0.70 | 10%: 0.35≤μ±3σ≤0.80 |
| 20%:0.25≤μ±3σ≤0.45 | 20%:0.50≤μ±3σ≤0.86 | 20%:0.80≤μ±3σ≤1.30 | 20%:0.65≤μ±3σ≤1.60 | ||||
| 30%:0.45≤μ±3σ≤0.7 | 30%:0.68≤μ±3σ≤1.32 | 30%:1.00≤μ±3σ≤2.10 | 30%: 1.00≤μ±3σ≤2.50 | ||||
| 10 | 60℃ Shear performance under pressure | Strength: µ-3σ≥0.8 | Shear strength under pressure: µ-3σ≥0.5 | Shear strength under pressure: µ-3σ≥0.2 | Shear strength under pressure: µ-3σ≥0.8 | ||
| Modulus: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | ||||
| 11 | 60℃ Tensile strength | MPa | GB/T 528-2009 | µ-3σ≥0.8 | µ-3σ≥1.1 | µ-3σ≥1.65 | / |
| 12 | Double 85 post-aging compression curve | MPa | GB/T 7757-2009 | 10%:0.12≤μ±3σ≤0.22 | 10%:0.25≤μ±3σ≤0.53 | 10%: 0.50≤μ±3σ≤0.70 | 10%: 0.40≤μ±3σ≤1.90 |
| 20%:0.25≤μ±3σ≤0.45 | 20%:0.50≤μ±3σ≤0.86 | 20%: 0.90≤μ±3σ≤1.30 | 20%: 1.00≤μ±3σ≤3.20 | ||||
| 30%:0.45≤μ±3σ≤0.75 | 30%:0.68≤μ±3σ≤1.32 | 30%: 1.40≤μ±3σ≤2.10 | 30%: 1.70≤μ±3σ≤5.50 | ||||
| 13 | Double 85 post-aging shear performance under pressure | Strength: µ-3σ≥0.8 | Shear strength under pressure: µ-3σ≥0.5 | Shear strength under pressure: µ-3σ≥0.2 | Shear strength under pressure: µ-3σ≥0.8 | ||
| Modulus: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | ||||
| 14 | Double 85 post-ageing Tensile strength | MPa | GB/T 528-2009 | µ-3σ≥0.8 | µ-3σ≥1.1 | µ-3σ≥1.65 | / |
| 15 | Compression curve after high and low-temperature cycle | MPa | GB/T 7757-2009 | 10%:0.12≤μ±3σ≤0.22 | 10%:0.25≤μ±3σ≤0.53 | 10%: 0.45≤μ±3σ≤0.65 | 10%: 0.50≤μ±3σ≤2.20 |
| 20%:0.25≤μ±3σ≤0.45 | 20%:0.50≤μ±3σ≤0.86 | 20%: 0.85≤μ±3σ≤1.35 | 20%: 1.00≤μ±3σ≤4.00 | ||||
| 30%:0.45≤μ±3σ≤0.7 | 30%:0.68≤μ±3σ≤1.32 | 30%: 1.30≤μ±3σ≤2.50 | 30%: 1.80≤μ±3σ≤6.80 | ||||
| 16 | Shear performance under pressure after high and low temperature | MPa | ASTM C273C /273M-16 | Strength: µ-3σ≥0.8 | Shear strength under pressure: µ-3σ≥0.5 | Shear strength under pressure: µ-3σ≥0.2 | Shear strength under pressure: µ-3σ≥0.8 |
| Modulus: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | Shear modulus under pressure: Min≥0.75 | ||||
| 17 | Tensile strength after high and low-temperature cycle | MPa | GB/T 528-2009 | µ-3σ≥0.8 | µ-3σ≥1.1 | µ-3σ≥1.65 | / |
| 18 | Flame retardant | / | UL94 | UL94 V0(2mm) | V0(t≥2mm) | V0(t≥2mm) | V0(t≥2mm) |
| V1(1≤t<2mm) | V1(1≤t<2mm) | V1(1≤t<2mm) | |||||
| HB(0.4≤t<1mm) | HB(0.4≤t<1mm) | HB(0.4≤t<1mm) | |||||
| 19 | Forbidden object | / | RoHS &REACH & ELV | RoHS &REACH & ELV | RoHS &REACH & ELV | RoHS &REACH & ELV | RoHS &REACH & ELV |
| 20 | Insulation | MΩ | 1000V DC 60s | µ-3σ≥500 | µ-3σ≥500 | µ-3σ≥500 | µ-3σ≥500 |
| 21 | Impedance | mA | 2700V DC 60s | µ+3σ≤1 | µ+3σ≤1 | µ+3σ≤1 | µ+3σ≤1 |
| 22 | Thermal conductivity | W/(m·K) | GB/T 10295-2008 | µ+3σ≤0.8 | µ+3σ≤0.8 | µ+3σ≤0.8 | µ+3σ≤0.8 |
| 23 | Specific heat capacity | J/(g·K) | ASTM E1269-2011 | µ-3σ≥0.9 | µ-3σ≥0.9 | µ-3σ≥0.9 | µ-3σ≥0.9 |
| 24 | Stress retention rate | % | GB/T1685-2008 | ≥40 | ≥40 | ≥40 | ≥40 |
| 25 | 25℃ Shear strength with double-sided adhesive | MPa | ASTM D1002 | Min≥0.8 | Min≥0.8 | Min≥1.1 | Min≥1.5 |
| 26 | -30℃ Shear strength with double-sided adhesive | MPa | ASTM D1002 | Min≥0.6 | Min≥0.8 | Min≥1.1 | Min≥1.5 |
| 27 | 60℃ Shear strength with double-sided adhesive | MPa | ASTM D1002 | Min≥0.6 | Min≥0.8 | Min≥0.6 | Min≥1.5 |
| 28 | Double 85 ageing shear strength with double-sided adhesive | MPa | ASTM D1002 | Min≥0.6 | Min≥0.8 | Min≥1.1 | Min≥1.5 |
| 29 | Shear strength after high and low-temperature cycles with double-sided adhesive | MPa | ASTM D1002 | Min≥0.6 | Min≥0.8 | Min≥1.1 | Min≥1.5 |
Is Silicone Rubber Long-lasting?
Silicone sheet is an extremely durable form of rubber in 60 Shore A durometer. In the truth, one of several exceptional options that come with silicone rubber is that it can be bought in a wide range of numerous durometers, or hardness. The durometer value is given to rubber to indicate the hardness and elasticity of different products. Silicone sheets are available in durometers of 40, 50, 60 and 70 A. The 40 A silicone rubber will have a higher degree of flexibility and pliability than the much harder 70 A version. Having silicone products offered in different formats like this allows the material to be used for a wide range of applications. Combined with its incredible ability to withstand extreme temperatures, both hot and cold, means that silicone can be used in setting like gaskets, high-intensity laboratory equipment, low compression materials and much more.
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Company
Fuzhou Fuqiang Precision Co., Ltd.
Location
No. 188, Wuchen Road, Dongtai Industrial Park, Qingkou Town, Minhou County
Contact Person
Fuqiang