High-performance filler superior to conventional carbon fillers due to high intensity, elasticity, flexibility, aspect ratio, conductivity, and thermal conductivity.
- Filler materials that impart conductivity to insulating polymer materials - Filler materials that impart thermal conductivity to polymer and rubber materials Carbon fillers are used as materials that impart conductivity to insulating polymer materials, as electronic carrier materials (conductive paths) for power sources represented by secondary batteries and fuel cells, and as catalyst supports. Graphene flower paste excels as a filler in composite materials due to its superior strength, elasticity, flexibility, aspect ratio, conductivity, and thermal conductivity compared to other carbon fillers.
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basic information
- Graphene in the shape of 5-10μm - Provided in paste form - Capable of mass production - Dispersion solvents: aqueous, IPA-based, NMP-based, water-IPA-based - Solid content: 10% and 1% for aqueous, IPA-based, and NMP-based, and 1% for water-IPA-based
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Applications/Examples of results
Examples of use: - Filler materials that impart conductivity to high-insulation polymer materials - Filler materials that impart thermal conductivity to polymer and rubber materials - Electronic carrier materials (conductive paths) and catalyst supports for power sources - Antistatic agents for resins and gel coats - Black pigments for plastics, casting resins, paints, and inks Carbon fillers are used as materials that impart conductivity to high-insulation polymer materials, serving as electronic carrier materials (conductive paths) and catalyst supports for power sources such as secondary batteries and fuel cells. Graphene flower paste excels as a filler in composite materials due to its superior strength, elasticity, flexibility, aspect ratio, conductivity, and thermal conductivity compared to other carbon fillers.
Detailed information
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- Graphene in the shape of 5-10μm - Provided in paste form - Capable of mass production - Dispersion solvents: water-based, IPA-based, NMP-based, water-IPA-based - Solid content: 10% and 1% for water-based, IPA-based, and NMP-based, 1% for water-IPA-based - Filler material that imparts conductivity to insulating polymer materials - Filler material that imparts thermal conductivity to polymer and rubber materials
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Company information
Our company is a development and proposal-oriented trading firm with "metal joining" as the core of our business, actively involved in manufacturing. We offer contract services and maintenance using joining technologies such as brazing, build-up welding, and thermal spraying, as well as sales of equipment and materials, introduction of industrial machinery, and construction of FA systems. Furthermore, we engage in the development and manufacturing of electronics-related devices, achieving a diverse and flexible business style that spans a wide range of fields. We will continue to demonstrate our uniqueness through the pursuit of manufacturing and are committed to contributing to the development of the industrial sector as our mission, striving for business expansion.