Product Feature
1. Physical peeling process, high purity graphene.
2. A physical insulated cladding layer can be formed on the surface of base material. Hence it can greatly improve paintings’ abrasive resistance and lifetime.
3. Thinner coating thickness and low cost.
4. Big diameter/thickness ratio and longer migration path for corrosive media to access base material. Hence the anticorrosion performance is notably improved.
5. Excellent conductivity, and unique scratch self-repair function.
![SC Pas 3001 SC Pas 3001]() | ![SC Pas 3001 SC Pas 3001]() |
SEM _ Pas3002 paste dry film |
Pas3002 paste |
Application Case
Client request:
Up to 75% of Zinc content was required for the heavy duty anti-corrosion paintings. An advanced solution is required to reduce Zinc percentage, cost and improve corrosion resistance.
Test Plan & Result:
Minute quantity of FLG is added in the 20% zinc content system. Salt spray test shows that by adding FLG, paintings can have better corrosion resistance and significant self-healing effect.
![SC Pas 3001 SC Pas 3001]()
| ![SC Pas 3001 SC Pas 3001]()
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20%Zn+0%FLG,200 | 20%Zn + 0.4%FLG,800h |
Salt Spray Test_FLG+20% zinc content system |
Technical Parameters
Appearance | Graphene% | Solid% | Solvent | PH |
Ash Black sticky paste | 5.0±0.2% | 6.0±0.2% | DMAC | 7-9 |
Recommendation
Application | Recommendation |
Anticorrosive/heavy-duty anticorrosive paintings | 0.5-1.5% as recommend, coating can resist salt spray test for more than 1,000 hours. It would perform better if Zinc powder was incorporated. |
Conductive/ antistatic paintings | Surface resistance of coating: 10e(+8) Ω/sq ( 0.4% FLG) and 10e(+3) Ω/sq (2.0% FLG). |
Package
Normally 20 kg packaged, or customized.