Graphene is a two-dimensional atomic-scale material, that is made of a single layer of carbon atoms that have a high level of cohesion through hybridisation bonds sp2 and arranged in a uniform surface, slightly undulating, with a similar appearance to a honeycomb lattice because of its hexagonal configuration. Graphene is an allotropic form of carbon, as graphite or diamond. Thus, one millimeter of graphite contains three million layers of graphene.

It is the strongest material known in nature, stronger than structural steel with the same density and even harder than diamond, and at the same time, it has a thickness that varies between 1 and 10 carbon atoms. Because of its thinness, this material is considered two-dimensional; it is the only material that can remain stable at just one atom thick.

It is elastic and flexible, graphene also has great electrical and thermal conductivity. This allows for heat dissipation and withstanding intense electrical currents without heating. It is virtually transparent, waterproof and so dense that not even helium can pass through it. It also exhibits many other qualities, such as high electron mobility, a property that will make it particularly interesting in the future for its potential use in fast nanodevices.

Graphene has incredible mechanical, electronic, chemical, magnetic and optical properties, and for this reason it is one of the most investigated materials at the moment. Furthermore, graphene is pure carbon, abundantly available in nature and ecologically friendly.

It was discovered by Konstantin Novoselov and Andre Geim in 2004, both winners of the Nobel Prize in Physics in 2010.

Graphene is a two-dimensional atomic-scale material, that is made of a single layer of carbon atoms that have a high level of cohesion through hybridisation bonds sp2 and arranged in a uniform surface, slightly undulating, with a similar appearance to a honeycomb lattice because of its hexagonal configuration. Graphene is an allotropic form of carbon, as graphite or diamond. Thus, one millimeter of graphite contains three million layers of graphene.

It is the strongest material known in nature, stronger than structural steel with the same density and even harder than diamond, and at the same time, it has a thickness that varies between 1 and 10 carbon atoms. Because of its thinness, this material is considered two-dimensional; it is the only material that can remain stable at just one atom thick.

It is elastic and flexible, graphene also has great electrical and thermal conductivity. This allows for heat dissipation and withstanding intense electrical currents without heating. It is virtually transparent, waterproof and so dense that not even helium can pass through it. It also exhibits many other qualities, such as high electron mobility, a property that will make it particularly interesting in the future for its potential use in fast nanodevices.

Graphene has incredible mechanical, electronic, chemical, magnetic and optical properties, and for this reason it is one of the most investigated materials at the moment. Furthermore, graphene is pure carbon, abundantly available in nature and ecologically friendly.

It was discovered by Konstantin Novoselov and Andre Geim in 2004, both winners of the Nobel Prize in Physics in 2010.

Resins for application in laminate and / or projection. For the manufacture of boats, industrial parts, tanks, bodies, silos, etc. The incorporation of Graphene in resin formulations, allows to improve the mechanical and chemical performance. We have three resins doped with Graphene, to be used depending on the application, requirements and polymerization rate.

COMPOGRAPH 70

COMPOGRAPH 70 is an isophthalic unsaturated polyester resin of last generation modified with Graphene nanotechnology, for use in the manufacture of nano-hybrid Composites that considerably increases the mechanical, physical and biological properties. The resin is semi flexible type and of medium reactivity.

COMPOGRAPH 70 -TA is pre-accelerated with cobalt salts and contains a thixotropic agent. COMPOGRAPH 70 -TP is indicated for continuous thread procedures without accelerating.

We have a range of fiberglass profiles with polyester resin. The Graphene treatment of the polyester resin improves the mechanical and chemical performance of this product by up to 100%. The use of smaller diameters than with standard graphene-free bars allows optimizing the cost / performance ratio.

COMPOGRAPH 90 LV

COMPOGRAPH 90 LV is an orthophthalic unsaturated polyester resin of last generation modified with Graphene nanotechnology, for use in the manufacture of nano-hybrid Composites that considerably increases the mechanical, physical and biological properties. The resin is semi flexible type and of medium reactivity.

COMPOGRAPH 90 LV is not pre-accelerated, it is formulated with DCPD characterized by its low styrene content.

COMPOGRAPH 140 TA

COMPOGRAPH 140-TA es una resina de poliéster insaturado de tipo ortoftálico y de última generación modificada con nanotecnología de grafeno, para uso en la fabricación de composites nanohíbridos que incrementan considerablemente sus propiedades mecánicas, físicas y biológicas. Es una resina semirrígida y de media reactividad.

COMPOGRAPH 140-TA está preacelerada con sales de cobalto y contiene un agente tixotrópico.

COMPOGRAPH 70

COMPOGRAPH 70 es una resina de poliéster insaturado de tipo isoftálico y de última generación modificada con nanotecnología de grafeno, para uso en la fabricación de composites nanohíbridos que incrementan considerablemente sus propiedades mecánicas, físicas y biológicas. Es una resina semirrígida y de media reactividad.

COMPOGRAPH 70-TA está preacelerada con sales de cobalto y contiene un agente tixotrópico. COMPOGRAPH 70-TP está indicada para procedimientos de hilo continuo sin aceleración.

We have a range of fiberglass profiles with polyester resin. The Graphene treatment of the polyester resin improves the mechanical and chemical performance of this product by up to 100%. The use of smaller diameters than with standard graphene-free bars allows optimizing the cost / performance ratio.