纳米石墨烯(2-10nm)Graphene Nanoplatelets
【品牌】:ACSMaterial
【货号】:24035900
【中文名称】:纳米石墨烯(2-10nm)
【英文名称】:GrapheneNanoplatelets(2-10nm)
【规格】:50g
【价格】:咨询子起生物客服
4OO_ 811 _ 9081 I368I6I966Z
【详细描述】:
Graphene nanoplatelets consist of stacks of multi-layer graphene sheets in a platelet morphology,
with a high aspect ratio (width–to-thickness). True density: 2.3g/cm3
纳米石墨烯(2-10nm)Graphene Nanoplatelets
Bulk Characteristics
Appearance
Carbon Content >99.5%
Bulk Density~0.10 g/ml
Water Content<0.5 wt%
Residual Impurities<0.5 wt%
Black and Grey Powder
Physical Properties
Diameter ~5 μm
Thickness2-10 nm
Specific Surface Area20-40 m2/g
Electrical Conductivity80000 S/m
Tensile Strength5 Gpa
Structure Features: The layered structure is as same as graphite crystal
纳米石墨烯(2-10nm)Graphene Nanoplatelets
Applications
■ Use as a high performance additive for composites with PPO, POM ,PPS, PC, ABS, PP, PE, PS, Nylon and rubbers.
■ Can improve composites tensile strength, stiffness, corrosion resistance, abrasion resistance and anti-static electricity and lubricant properties.
■ For all mechanical properties modifications, typical amounts are about 2-6wt%
■ For conductivity modification, typical amounts are about 2-8wt%
Application Instruction
■ Mix Graphene nanoplatelets with the target polymer using a double-roller, banburymixer, twin screw extruder or other mixer commonly used in the plastics industry. For better dispersion of the product powder in the target polymer matrix, some surface modifiers, such as silane coupling agent, titanate coupling agent or aluminate coupling agent, etc are recommended to use before mixing the powder with plastics resin.
Attention
■ The effectiveness of modification depends very much on the type and the amount of surface modifiers used. We would be delighted to speak with you about what works best for your application. Please call (US) 866-227-0656
Q&A
Q: What are the thermal stability of Graphene Nanoplatelets at ambient pressure?
A: GNPs will not oxide below 600 Celsius, and they are very stable.
纳米石墨烯(2-10nm)Graphene Nanoplatelets